cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/veloso_slides.pdf ·...
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![Page 1: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/1.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Cleanliness and group rings
Paula Murgel Veloso
Universidade Federal Fluminense (UFF), Niteroi – RJ, Brazil
June 21, 20171
1Groups, Rings and the Yang-Baxter EquationPaula Murgel Veloso Cleanliness and group rings
![Page 2: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/2.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean and ∗-clean rings
A an associative ring with 1a ∈ A is a clean element if it may be written as a = u + e, forsome unit u ∈ A and some idempotent e ∈ A.
a ∈ A, with A a ∗-ring, is a ∗-clean element if it may be written asa = u + p, for some unit u ∈ A and some projection p ∈ A.
Examples and properties
Any field is clean and ∗-clean.
Any Boolean ring is clean.
Every local ring is clean and ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 3: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/3.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean and ∗-clean rings
A an associative ring with 1
a ∈ A is a clean element if it may be written as a = u + e, forsome unit u ∈ A and some idempotent e ∈ A.
a ∈ A, with A a ∗-ring, is a ∗-clean element if it may be written asa = u + p, for some unit u ∈ A and some projection p ∈ A.
Examples and properties
Any field is clean and ∗-clean.
Any Boolean ring is clean.
Every local ring is clean and ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 4: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/4.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean and ∗-clean rings
A an associative ring with 1a ∈ A is a clean element if it may be written as a = u + e,
forsome unit u ∈ A and some idempotent e ∈ A.
a ∈ A, with A a ∗-ring, is a ∗-clean element if it may be written asa = u + p, for some unit u ∈ A and some projection p ∈ A.
Examples and properties
Any field is clean and ∗-clean.
Any Boolean ring is clean.
Every local ring is clean and ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 5: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/5.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean and ∗-clean rings
A an associative ring with 1a ∈ A is a clean element if it may be written as a = u + e, forsome unit u ∈ A and some idempotent e ∈ A.
a ∈ A, with A a ∗-ring, is a ∗-clean element if it may be written asa = u + p, for some unit u ∈ A and some projection p ∈ A.
Examples and properties
Any field is clean and ∗-clean.
Any Boolean ring is clean.
Every local ring is clean and ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 6: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/6.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean and ∗-clean rings
A an associative ring with 1a ∈ A is a clean element if it may be written as a = u + e, forsome unit u ∈ A and some idempotent e ∈ A.
a ∈ A, with A a ∗-ring, is a ∗-clean element if it may be written asa = u + p,
for some unit u ∈ A and some projection p ∈ A.
Examples and properties
Any field is clean and ∗-clean.
Any Boolean ring is clean.
Every local ring is clean and ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 7: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/7.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean and ∗-clean rings
A an associative ring with 1a ∈ A is a clean element if it may be written as a = u + e, forsome unit u ∈ A and some idempotent e ∈ A.
a ∈ A, with A a ∗-ring, is a ∗-clean element if it may be written asa = u + p, for some unit u ∈ A and some projection p ∈ A.
Examples and properties
Any field is clean and ∗-clean.
Any Boolean ring is clean.
Every local ring is clean and ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 8: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/8.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean and ∗-clean rings
A an associative ring with 1a ∈ A is a clean element if it may be written as a = u + e, forsome unit u ∈ A and some idempotent e ∈ A.
a ∈ A, with A a ∗-ring, is a ∗-clean element if it may be written asa = u + p, for some unit u ∈ A and some projection p ∈ A.
Examples and properties
Any field is clean and ∗-clean.
Any Boolean ring is clean.
Every local ring is clean and ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 9: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/9.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean and ∗-clean rings
A an associative ring with 1a ∈ A is a clean element if it may be written as a = u + e, forsome unit u ∈ A and some idempotent e ∈ A.
a ∈ A, with A a ∗-ring, is a ∗-clean element if it may be written asa = u + p, for some unit u ∈ A and some projection p ∈ A.
Examples and properties
Any field is clean and ∗-clean.
Any Boolean ring is clean.
Every local ring is clean and ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 10: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/10.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean and ∗-clean rings
A an associative ring with 1a ∈ A is a clean element if it may be written as a = u + e, forsome unit u ∈ A and some idempotent e ∈ A.
a ∈ A, with A a ∗-ring, is a ∗-clean element if it may be written asa = u + p, for some unit u ∈ A and some projection p ∈ A.
Examples and properties
Any field is clean and ∗-clean.
Any Boolean ring is clean.
Every local ring is clean and ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 11: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/11.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean and ∗-clean rings (contd.)
Examples and properties (contd.)
Every semiperfect ring is clean.
[A is a semiperfect ring if A/J (A) is semisimple andidempotents lift modulo J (A).][A is semiperfect ⇐⇒ A is clean and has no infinite set oforthogonal idempotents]
Every left (right) Artinian ring is clean.[A Artinian =⇒ A semiperfect]
Z is not clean.
Polynomial rings are not clean. (Nicholson & Zhou, 2004 [10,Proposition 13])
A clean ring =⇒ Mn(A) clean ring. (J. Han & Nicholson,2001 [4, Corollary 1])
Paula Murgel Veloso Cleanliness and group rings
![Page 12: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/12.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean and ∗-clean rings (contd.)
Examples and properties (contd.)
Every semiperfect ring is clean.[A is a semiperfect ring if A/J (A) is semisimple andidempotents lift modulo J (A).]
[A is semiperfect ⇐⇒ A is clean and has no infinite set oforthogonal idempotents]
Every left (right) Artinian ring is clean.[A Artinian =⇒ A semiperfect]
Z is not clean.
Polynomial rings are not clean. (Nicholson & Zhou, 2004 [10,Proposition 13])
A clean ring =⇒ Mn(A) clean ring. (J. Han & Nicholson,2001 [4, Corollary 1])
Paula Murgel Veloso Cleanliness and group rings
![Page 13: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/13.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean and ∗-clean rings (contd.)
Examples and properties (contd.)
Every semiperfect ring is clean.[A is a semiperfect ring if A/J (A) is semisimple andidempotents lift modulo J (A).][A is semiperfect ⇐⇒ A is clean and has no infinite set oforthogonal idempotents]
Every left (right) Artinian ring is clean.[A Artinian =⇒ A semiperfect]
Z is not clean.
Polynomial rings are not clean. (Nicholson & Zhou, 2004 [10,Proposition 13])
A clean ring =⇒ Mn(A) clean ring. (J. Han & Nicholson,2001 [4, Corollary 1])
Paula Murgel Veloso Cleanliness and group rings
![Page 14: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/14.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean and ∗-clean rings (contd.)
Examples and properties (contd.)
Every semiperfect ring is clean.[A is a semiperfect ring if A/J (A) is semisimple andidempotents lift modulo J (A).][A is semiperfect ⇐⇒ A is clean and has no infinite set oforthogonal idempotents]
Every left (right) Artinian ring is clean.
[A Artinian =⇒ A semiperfect]
Z is not clean.
Polynomial rings are not clean. (Nicholson & Zhou, 2004 [10,Proposition 13])
A clean ring =⇒ Mn(A) clean ring. (J. Han & Nicholson,2001 [4, Corollary 1])
Paula Murgel Veloso Cleanliness and group rings
![Page 15: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/15.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean and ∗-clean rings (contd.)
Examples and properties (contd.)
Every semiperfect ring is clean.[A is a semiperfect ring if A/J (A) is semisimple andidempotents lift modulo J (A).][A is semiperfect ⇐⇒ A is clean and has no infinite set oforthogonal idempotents]
Every left (right) Artinian ring is clean.[A Artinian =⇒ A semiperfect]
Z is not clean.
Polynomial rings are not clean. (Nicholson & Zhou, 2004 [10,Proposition 13])
A clean ring =⇒ Mn(A) clean ring. (J. Han & Nicholson,2001 [4, Corollary 1])
Paula Murgel Veloso Cleanliness and group rings
![Page 16: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/16.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean and ∗-clean rings (contd.)
Examples and properties (contd.)
Every semiperfect ring is clean.[A is a semiperfect ring if A/J (A) is semisimple andidempotents lift modulo J (A).][A is semiperfect ⇐⇒ A is clean and has no infinite set oforthogonal idempotents]
Every left (right) Artinian ring is clean.[A Artinian =⇒ A semiperfect]
Z is not clean.
Polynomial rings are not clean. (Nicholson & Zhou, 2004 [10,Proposition 13])
A clean ring =⇒ Mn(A) clean ring. (J. Han & Nicholson,2001 [4, Corollary 1])
Paula Murgel Veloso Cleanliness and group rings
![Page 17: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/17.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean and ∗-clean rings (contd.)
Examples and properties (contd.)
Every semiperfect ring is clean.[A is a semiperfect ring if A/J (A) is semisimple andidempotents lift modulo J (A).][A is semiperfect ⇐⇒ A is clean and has no infinite set oforthogonal idempotents]
Every left (right) Artinian ring is clean.[A Artinian =⇒ A semiperfect]
Z is not clean.
Polynomial rings are not clean.
(Nicholson & Zhou, 2004 [10,Proposition 13])
A clean ring =⇒ Mn(A) clean ring. (J. Han & Nicholson,2001 [4, Corollary 1])
Paula Murgel Veloso Cleanliness and group rings
![Page 18: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/18.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean and ∗-clean rings (contd.)
Examples and properties (contd.)
Every semiperfect ring is clean.[A is a semiperfect ring if A/J (A) is semisimple andidempotents lift modulo J (A).][A is semiperfect ⇐⇒ A is clean and has no infinite set oforthogonal idempotents]
Every left (right) Artinian ring is clean.[A Artinian =⇒ A semiperfect]
Z is not clean.
Polynomial rings are not clean. (Nicholson & Zhou, 2004 [10,Proposition 13])
A clean ring =⇒ Mn(A) clean ring. (J. Han & Nicholson,2001 [4, Corollary 1])
Paula Murgel Veloso Cleanliness and group rings
![Page 19: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/19.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean and ∗-clean rings (contd.)
Examples and properties (contd.)
Every semiperfect ring is clean.[A is a semiperfect ring if A/J (A) is semisimple andidempotents lift modulo J (A).][A is semiperfect ⇐⇒ A is clean and has no infinite set oforthogonal idempotents]
Every left (right) Artinian ring is clean.[A Artinian =⇒ A semiperfect]
Z is not clean.
Polynomial rings are not clean. (Nicholson & Zhou, 2004 [10,Proposition 13])
A clean ring =⇒ Mn(A) clean ring.
(J. Han & Nicholson,2001 [4, Corollary 1])
Paula Murgel Veloso Cleanliness and group rings
![Page 20: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/20.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean and ∗-clean rings (contd.)
Examples and properties (contd.)
Every semiperfect ring is clean.[A is a semiperfect ring if A/J (A) is semisimple andidempotents lift modulo J (A).][A is semiperfect ⇐⇒ A is clean and has no infinite set oforthogonal idempotents]
Every left (right) Artinian ring is clean.[A Artinian =⇒ A semiperfect]
Z is not clean.
Polynomial rings are not clean. (Nicholson & Zhou, 2004 [10,Proposition 13])
A clean ring =⇒ Mn(A) clean ring. (J. Han & Nicholson,2001 [4, Corollary 1])
Paula Murgel Veloso Cleanliness and group rings
![Page 21: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/21.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean rings ∗-clean rings (cont.)
Examples and properties (contd.)
ΠiAi clean ring ⇐⇒ each Ai clean ring.
(Nicholson & Zhou,2004 [10, Example 3])
Every homomorphic image of a clean ring is again clean.(Nicholson & Zhou, 2004 [10, Theorem 22])
A subring of a clean ring may not be clean.
Every ∗-clean ring is a ∗-ring and is clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 22: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/22.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean rings ∗-clean rings (cont.)
Examples and properties (contd.)
ΠiAi clean ring ⇐⇒ each Ai clean ring. (Nicholson & Zhou,2004 [10, Example 3])
Every homomorphic image of a clean ring is again clean.(Nicholson & Zhou, 2004 [10, Theorem 22])
A subring of a clean ring may not be clean.
Every ∗-clean ring is a ∗-ring and is clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 23: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/23.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean rings ∗-clean rings (cont.)
Examples and properties (contd.)
ΠiAi clean ring ⇐⇒ each Ai clean ring. (Nicholson & Zhou,2004 [10, Example 3])
Every homomorphic image of a clean ring is again clean.
(Nicholson & Zhou, 2004 [10, Theorem 22])
A subring of a clean ring may not be clean.
Every ∗-clean ring is a ∗-ring and is clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 24: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/24.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean rings ∗-clean rings (cont.)
Examples and properties (contd.)
ΠiAi clean ring ⇐⇒ each Ai clean ring. (Nicholson & Zhou,2004 [10, Example 3])
Every homomorphic image of a clean ring is again clean.(Nicholson & Zhou, 2004 [10, Theorem 22])
A subring of a clean ring may not be clean.
Every ∗-clean ring is a ∗-ring and is clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 25: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/25.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean rings ∗-clean rings (cont.)
Examples and properties (contd.)
ΠiAi clean ring ⇐⇒ each Ai clean ring. (Nicholson & Zhou,2004 [10, Example 3])
Every homomorphic image of a clean ring is again clean.(Nicholson & Zhou, 2004 [10, Theorem 22])
A subring of a clean ring may not be clean.
Every ∗-clean ring is a ∗-ring and is clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 26: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/26.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Clean rings ∗-clean rings (cont.)
Examples and properties (contd.)
ΠiAi clean ring ⇐⇒ each Ai clean ring. (Nicholson & Zhou,2004 [10, Example 3])
Every homomorphic image of a clean ring is again clean.(Nicholson & Zhou, 2004 [10, Theorem 22])
A subring of a clean ring may not be clean.
Every ∗-clean ring is a ∗-ring and is clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 27: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/27.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background
Nicholson defined clean rings in 1977 [9] while studying exchangerings (= suitable rings).[A ring is said to be exchange if idempotents can be lifted moduloevery left ideal]If all idempotents are central, then every element in an exchangering is the sum of a unit and an idempotent.
J. Han and Nicholson were the first to tackle cleanliness in grouprings in 2001. [4]
Paula Murgel Veloso Cleanliness and group rings
![Page 28: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/28.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background
Nicholson defined clean rings in 1977 [9] while studying exchangerings (= suitable rings).
[A ring is said to be exchange if idempotents can be lifted moduloevery left ideal]If all idempotents are central, then every element in an exchangering is the sum of a unit and an idempotent.
J. Han and Nicholson were the first to tackle cleanliness in grouprings in 2001. [4]
Paula Murgel Veloso Cleanliness and group rings
![Page 29: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/29.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background
Nicholson defined clean rings in 1977 [9] while studying exchangerings (= suitable rings).[A ring is said to be exchange if idempotents can be lifted moduloevery left ideal]
If all idempotents are central, then every element in an exchangering is the sum of a unit and an idempotent.
J. Han and Nicholson were the first to tackle cleanliness in grouprings in 2001. [4]
Paula Murgel Veloso Cleanliness and group rings
![Page 30: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/30.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background
Nicholson defined clean rings in 1977 [9] while studying exchangerings (= suitable rings).[A ring is said to be exchange if idempotents can be lifted moduloevery left ideal]If all idempotents are central, then every element in an exchangering is the sum of a unit and an idempotent.
J. Han and Nicholson were the first to tackle cleanliness in grouprings in 2001. [4]
Paula Murgel Veloso Cleanliness and group rings
![Page 31: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/31.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background
Nicholson defined clean rings in 1977 [9] while studying exchangerings (= suitable rings).[A ring is said to be exchange if idempotents can be lifted moduloevery left ideal]If all idempotents are central, then every element in an exchangering is the sum of a unit and an idempotent.
J. Han and Nicholson were the first to tackle cleanliness in grouprings in 2001. [4]
Paula Murgel Veloso Cleanliness and group rings
![Page 32: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/32.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background
Nicholson defined clean rings in 1977 [9] while studying exchangerings (= suitable rings).[A ring is said to be exchange if idempotents can be lifted moduloevery left ideal]If all idempotents are central, then every element in an exchangering is the sum of a unit and an idempotent.
J. Han and Nicholson were the first to tackle cleanliness in grouprings in 2001. [4]
Paula Murgel Veloso Cleanliness and group rings
![Page 33: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/33.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background (contd.)
Notice: clean rings are the “additive analogues” of unit-regularrings.
Question:
What exactly is the relationship between unit-regular rings andclean rings?
Theorem (Camillo & Khurana, 2001 [1, Theorem 1])
A ring A is unit-regular ⇐⇒ for every a ∈ A, there is u ∈ U(A)and an idempotent e ∈ A such that a = e + u (i.e., A is a cleanring) and aA ∩ eA = 0.
Paula Murgel Veloso Cleanliness and group rings
![Page 34: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/34.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background (contd.)
Notice: clean rings are the “additive analogues” of unit-regularrings.
Question:
What exactly is the relationship between unit-regular rings andclean rings?
Theorem (Camillo & Khurana, 2001 [1, Theorem 1])
A ring A is unit-regular ⇐⇒ for every a ∈ A, there is u ∈ U(A)and an idempotent e ∈ A such that a = e + u (i.e., A is a cleanring) and aA ∩ eA = 0.
Paula Murgel Veloso Cleanliness and group rings
![Page 35: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/35.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background (contd.)
Notice: clean rings are the “additive analogues” of unit-regularrings.
Question:
What exactly is the relationship between unit-regular rings andclean rings?
Theorem (Camillo & Khurana, 2001 [1, Theorem 1])
A ring A is unit-regular ⇐⇒ for every a ∈ A, there is u ∈ U(A)and an idempotent e ∈ A such that a = e + u (i.e., A is a cleanring) and aA ∩ eA = 0.
Paula Murgel Veloso Cleanliness and group rings
![Page 36: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/36.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background (contd.)
T. Y. Lam’ question:
(at the Conference on Algebra and Its Applications, 2005, OhioUniversity)
Which von Neumann algebras are clean as rings?
von Neumann algebras are ∗-rings; it is simpler to work withprojections than with idempotents.
In 2010, Vas proposed the definition of ∗-clean rings in [11].
Vas’s question:
Are there clean ∗-rings that are not ∗-clean?
Paula Murgel Veloso Cleanliness and group rings
![Page 37: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/37.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background (contd.)
T. Y. Lam’ question:
(at the Conference on Algebra and Its Applications, 2005, OhioUniversity)Which von Neumann algebras are clean as rings?
von Neumann algebras are ∗-rings; it is simpler to work withprojections than with idempotents.
In 2010, Vas proposed the definition of ∗-clean rings in [11].
Vas’s question:
Are there clean ∗-rings that are not ∗-clean?
Paula Murgel Veloso Cleanliness and group rings
![Page 38: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/38.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background (contd.)
T. Y. Lam’ question:
(at the Conference on Algebra and Its Applications, 2005, OhioUniversity)Which von Neumann algebras are clean as rings?
von Neumann algebras are ∗-rings;
it is simpler to work withprojections than with idempotents.
In 2010, Vas proposed the definition of ∗-clean rings in [11].
Vas’s question:
Are there clean ∗-rings that are not ∗-clean?
Paula Murgel Veloso Cleanliness and group rings
![Page 39: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/39.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background (contd.)
T. Y. Lam’ question:
(at the Conference on Algebra and Its Applications, 2005, OhioUniversity)Which von Neumann algebras are clean as rings?
von Neumann algebras are ∗-rings; it is simpler to work withprojections than with idempotents.
In 2010, Vas proposed the definition of ∗-clean rings in [11].
Vas’s question:
Are there clean ∗-rings that are not ∗-clean?
Paula Murgel Veloso Cleanliness and group rings
![Page 40: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/40.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background (contd.)
T. Y. Lam’ question:
(at the Conference on Algebra and Its Applications, 2005, OhioUniversity)Which von Neumann algebras are clean as rings?
von Neumann algebras are ∗-rings; it is simpler to work withprojections than with idempotents.
In 2010, Vas proposed the definition of ∗-clean rings in [11].
Vas’s question:
Are there clean ∗-rings that are not ∗-clean?
Paula Murgel Veloso Cleanliness and group rings
![Page 41: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/41.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background (contd.)
T. Y. Lam’ question:
(at the Conference on Algebra and Its Applications, 2005, OhioUniversity)Which von Neumann algebras are clean as rings?
von Neumann algebras are ∗-rings; it is simpler to work withprojections than with idempotents.
In 2010, Vas proposed the definition of ∗-clean rings in [11].
Vas’s question:
Are there clean ∗-rings that are not ∗-clean?
Paula Murgel Veloso Cleanliness and group rings
![Page 42: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/42.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background (contd.)
Example (C. Li & Zhou, 2011 [6, Example 2.6])
A = T2(Z2)
A is a clean ∗-ring: ∗ :
(a b0 c
)7→(
c b0 a
);
for every involution ∗, A is not ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 43: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/43.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background (contd.)
Example (C. Li & Zhou, 2011 [6, Example 2.6])
A = T2(Z2)
A is a clean ∗-ring: ∗ :
(a b0 c
)7→(
c b0 a
);
for every involution ∗, A is not ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 44: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/44.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background (contd.)
Example (C. Li & Zhou, 2011 [6, Example 2.6])
A = T2(Z2)
A is a clean ∗-ring:
∗ :
(a b0 c
)7→(
c b0 a
);
for every involution ∗, A is not ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 45: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/45.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background (contd.)
Example (C. Li & Zhou, 2011 [6, Example 2.6])
A = T2(Z2)
A is a clean ∗-ring: ∗ :
(a b0 c
)7→(
c b0 a
);
for every involution ∗, A is not ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 46: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/46.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background (contd.)
Example (C. Li & Zhou, 2011 [6, Example 2.6])
A = T2(Z2)
A is a clean ∗-ring: ∗ :
(a b0 c
)7→(
c b0 a
);
for every involution ∗, A is not ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 47: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/47.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Historical background (contd.)
Example (C. Li & Zhou, 2011 [6, Example 2.6])
A = T2(Z2)
A is a clean ∗-ring: ∗ :
(a b0 c
)7→(
c b0 a
);
for every involution ∗, A is not ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 48: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/48.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Involutions in group rings
C. Li & Zhou [6] were the first ones to tackle ∗-cleanliness in grouprings in 2011. However, very little is known about the subject evennow.
G group;
classical involution in G : g 7→ g−1.
If R is a commutative ring, the R-linear extension of the groupinvolution in G yields a ring involution in RG : ∗ : RG −→ RG ,α∗ =
∑g∈G αgg
−1 (classical involution in RG ).
Paula Murgel Veloso Cleanliness and group rings
![Page 49: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/49.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Involutions in group rings
C. Li & Zhou [6] were the first ones to tackle ∗-cleanliness in grouprings in 2011.
However, very little is known about the subject evennow.
G group;
classical involution in G : g 7→ g−1.
If R is a commutative ring, the R-linear extension of the groupinvolution in G yields a ring involution in RG : ∗ : RG −→ RG ,α∗ =
∑g∈G αgg
−1 (classical involution in RG ).
Paula Murgel Veloso Cleanliness and group rings
![Page 50: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/50.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Involutions in group rings
C. Li & Zhou [6] were the first ones to tackle ∗-cleanliness in grouprings in 2011. However, very little is known about the subject evennow.
G group;
classical involution in G : g 7→ g−1.
If R is a commutative ring, the R-linear extension of the groupinvolution in G yields a ring involution in RG : ∗ : RG −→ RG ,α∗ =
∑g∈G αgg
−1 (classical involution in RG ).
Paula Murgel Veloso Cleanliness and group rings
![Page 51: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/51.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Involutions in group rings
C. Li & Zhou [6] were the first ones to tackle ∗-cleanliness in grouprings in 2011. However, very little is known about the subject evennow.
G group;
classical involution in G : g 7→ g−1.
If R is a commutative ring, the R-linear extension of the groupinvolution in G yields a ring involution in RG : ∗ : RG −→ RG ,α∗ =
∑g∈G αgg
−1 (classical involution in RG ).
Paula Murgel Veloso Cleanliness and group rings
![Page 52: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/52.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Involutions in group rings
C. Li & Zhou [6] were the first ones to tackle ∗-cleanliness in grouprings in 2011. However, very little is known about the subject evennow.
G group;
classical involution in G : g 7→ g−1.
If R is a commutative ring, the R-linear extension of the groupinvolution in G yields a ring involution in RG : ∗ : RG −→ RG ,α∗ =
∑g∈G αgg
−1 (classical involution in RG ).
Paula Murgel Veloso Cleanliness and group rings
![Page 53: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/53.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Involutions in group rings
C. Li & Zhou [6] were the first ones to tackle ∗-cleanliness in grouprings in 2011. However, very little is known about the subject evennow.
G group;
classical involution in G : g 7→ g−1.
If R is a commutative ring, the R-linear extension of the groupinvolution in G yields a ring involution in RG : ∗ : RG −→ RG ,α∗ =
∑g∈G αgg
−1 (classical involution in RG ).
Paula Murgel Veloso Cleanliness and group rings
![Page 54: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/54.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Involutions in group rings
C. Li & Zhou [6] were the first ones to tackle ∗-cleanliness in grouprings in 2011. However, very little is known about the subject evennow.
G group;
classical involution in G : g 7→ g−1.
If R is a commutative ring, the R-linear extension of the groupinvolution in G yields a ring involution in RG :
∗ : RG −→ RG ,α∗ =
∑g∈G αgg
−1 (classical involution in RG ).
Paula Murgel Veloso Cleanliness and group rings
![Page 55: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/55.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Involutions in group rings
C. Li & Zhou [6] were the first ones to tackle ∗-cleanliness in grouprings in 2011. However, very little is known about the subject evennow.
G group;
classical involution in G : g 7→ g−1.
If R is a commutative ring, the R-linear extension of the groupinvolution in G yields a ring involution in RG : ∗ : RG −→ RG ,α∗ =
∑g∈G αgg
−1
(classical involution in RG ).
Paula Murgel Veloso Cleanliness and group rings
![Page 56: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/56.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Involutions in group rings
C. Li & Zhou [6] were the first ones to tackle ∗-cleanliness in grouprings in 2011. However, very little is known about the subject evennow.
G group;
classical involution in G : g 7→ g−1.
If R is a commutative ring, the R-linear extension of the groupinvolution in G yields a ring involution in RG : ∗ : RG −→ RG ,α∗ =
∑g∈G αgg
−1 (classical involution in RG ).
Paula Murgel Veloso Cleanliness and group rings
![Page 57: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/57.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Useful results
Theorem (Nicholson, 1972 [8])
Let R be a ring and G be a group. If R is local, G is a locallyfinite p-group and p ∈ J (R), then RG is a local ring.
Theorem (C. Li & Zhou, 2011 [6, Theorem 2.2])
A commutative ∗-ring A is ∗-clean ⇐⇒ A is clean and everyidempotent in A is a projection.
Proof:
[⇒] A is clearly clean. Let e2 = e ∈ A. Since R is ∗-clean, we havee = p + u, where p ∈ A is a projection and u ∈ U(A). So,u = e − p e u(e + p − 1) = (e − p)(e + p − 1) = 0; thene = 1− p. Therefore, e∗ = 1∗ − p∗ = 1− p = e.
Paula Murgel Veloso Cleanliness and group rings
![Page 58: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/58.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Useful results
Theorem (Nicholson, 1972 [8])
Let R be a ring and G be a group.
If R is local, G is a locallyfinite p-group and p ∈ J (R), then RG is a local ring.
Theorem (C. Li & Zhou, 2011 [6, Theorem 2.2])
A commutative ∗-ring A is ∗-clean ⇐⇒ A is clean and everyidempotent in A is a projection.
Proof:
[⇒] A is clearly clean. Let e2 = e ∈ A. Since R is ∗-clean, we havee = p + u, where p ∈ A is a projection and u ∈ U(A). So,u = e − p e u(e + p − 1) = (e − p)(e + p − 1) = 0; thene = 1− p. Therefore, e∗ = 1∗ − p∗ = 1− p = e.
Paula Murgel Veloso Cleanliness and group rings
![Page 59: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/59.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Useful results
Theorem (Nicholson, 1972 [8])
Let R be a ring and G be a group. If R is local, G is a locallyfinite p-group and p ∈ J (R), then RG is a local ring.
Theorem (C. Li & Zhou, 2011 [6, Theorem 2.2])
A commutative ∗-ring A is ∗-clean ⇐⇒ A is clean and everyidempotent in A is a projection.
Proof:
[⇒] A is clearly clean. Let e2 = e ∈ A. Since R is ∗-clean, we havee = p + u, where p ∈ A is a projection and u ∈ U(A). So,u = e − p e u(e + p − 1) = (e − p)(e + p − 1) = 0; thene = 1− p. Therefore, e∗ = 1∗ − p∗ = 1− p = e.
Paula Murgel Veloso Cleanliness and group rings
![Page 60: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/60.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Useful results
Theorem (Nicholson, 1972 [8])
Let R be a ring and G be a group. If R is local, G is a locallyfinite p-group and p ∈ J (R), then RG is a local ring.
Theorem (C. Li & Zhou, 2011 [6, Theorem 2.2])
A commutative ∗-ring A is ∗-clean ⇐⇒ A is clean and everyidempotent in A is a projection.
Proof:
[⇒] A is clearly clean. Let e2 = e ∈ A. Since R is ∗-clean, we havee = p + u, where p ∈ A is a projection and u ∈ U(A). So,u = e − p e u(e + p − 1) = (e − p)(e + p − 1) = 0; thene = 1− p. Therefore, e∗ = 1∗ − p∗ = 1− p = e.
Paula Murgel Veloso Cleanliness and group rings
![Page 61: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/61.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Useful results
Theorem (Nicholson, 1972 [8])
Let R be a ring and G be a group. If R is local, G is a locallyfinite p-group and p ∈ J (R), then RG is a local ring.
Theorem (C. Li & Zhou, 2011 [6, Theorem 2.2])
A commutative ∗-ring A is ∗-clean ⇐⇒ A is clean and everyidempotent in A is a projection.
Proof:
[⇒] A is clearly clean.
Let e2 = e ∈ A. Since R is ∗-clean, we havee = p + u, where p ∈ A is a projection and u ∈ U(A). So,u = e − p e u(e + p − 1) = (e − p)(e + p − 1) = 0; thene = 1− p. Therefore, e∗ = 1∗ − p∗ = 1− p = e.
Paula Murgel Veloso Cleanliness and group rings
![Page 62: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/62.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Useful results
Theorem (Nicholson, 1972 [8])
Let R be a ring and G be a group. If R is local, G is a locallyfinite p-group and p ∈ J (R), then RG is a local ring.
Theorem (C. Li & Zhou, 2011 [6, Theorem 2.2])
A commutative ∗-ring A is ∗-clean ⇐⇒ A is clean and everyidempotent in A is a projection.
Proof:
[⇒] A is clearly clean. Let e2 = e ∈ A. Since R is ∗-clean, we havee = p + u, where p ∈ A is a projection and u ∈ U(A).
So,u = e − p e u(e + p − 1) = (e − p)(e + p − 1) = 0; thene = 1− p. Therefore, e∗ = 1∗ − p∗ = 1− p = e.
Paula Murgel Veloso Cleanliness and group rings
![Page 63: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/63.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Useful results
Theorem (Nicholson, 1972 [8])
Let R be a ring and G be a group. If R is local, G is a locallyfinite p-group and p ∈ J (R), then RG is a local ring.
Theorem (C. Li & Zhou, 2011 [6, Theorem 2.2])
A commutative ∗-ring A is ∗-clean ⇐⇒ A is clean and everyidempotent in A is a projection.
Proof:
[⇒] A is clearly clean. Let e2 = e ∈ A. Since R is ∗-clean, we havee = p + u, where p ∈ A is a projection and u ∈ U(A). So,u = e − p e u(e + p − 1) = (e − p)(e + p − 1) = 0; thene = 1− p.
Therefore, e∗ = 1∗ − p∗ = 1− p = e.
Paula Murgel Veloso Cleanliness and group rings
![Page 64: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/64.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Useful results
Theorem (Nicholson, 1972 [8])
Let R be a ring and G be a group. If R is local, G is a locallyfinite p-group and p ∈ J (R), then RG is a local ring.
Theorem (C. Li & Zhou, 2011 [6, Theorem 2.2])
A commutative ∗-ring A is ∗-clean ⇐⇒ A is clean and everyidempotent in A is a projection.
Proof:
[⇒] A is clearly clean. Let e2 = e ∈ A. Since R is ∗-clean, we havee = p + u, where p ∈ A is a projection and u ∈ U(A). So,u = e − p e u(e + p − 1) = (e − p)(e + p − 1) = 0; thene = 1− p. Therefore, e∗ = 1∗ − p∗ = 1− p = e.
Paula Murgel Veloso Cleanliness and group rings
![Page 65: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/65.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Commutative local rings and cyclic groups
Theorem (Gao, Chen & Y. Li, 2015 [2])
Let R be a local commutative ring and C3 = 〈g〉 the cyclic groupof order 3.
If 3 ∈ J (R), then RC3 is ∗-clean.
If 3 6∈ J (R), then RC3 is ∗-clean ⇐⇒ RC3 is clean and theequation X 2 + X + 1 = 0 has no solutions in R.
Paula Murgel Veloso Cleanliness and group rings
![Page 66: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/66.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Commutative local rings and cyclic groups
Theorem (Gao, Chen & Y. Li, 2015 [2])
Let R be a local commutative ring and C3 = 〈g〉 the cyclic groupof order 3.
If 3 ∈ J (R), then RC3 is ∗-clean.
If 3 6∈ J (R), then RC3 is ∗-clean ⇐⇒ RC3 is clean and theequation X 2 + X + 1 = 0 has no solutions in R.
Paula Murgel Veloso Cleanliness and group rings
![Page 67: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/67.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Commutative local rings and cyclic groups
Theorem (Gao, Chen & Y. Li, 2015 [2])
Let R be a local commutative ring and C3 = 〈g〉 the cyclic groupof order 3.
If 3 ∈ J (R), then RC3 is ∗-clean.
If 3 6∈ J (R), then RC3 is ∗-clean ⇐⇒ RC3 is clean and theequation X 2 + X + 1 = 0 has no solutions in R.
Paula Murgel Veloso Cleanliness and group rings
![Page 68: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/68.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Commutative local rings and cyclic groups
Theorem (Gao, Chen & Y. Li, 2015 [2])
Let R be a local commutative ring and C3 = 〈g〉 the cyclic groupof order 3.
If 3 ∈ J (R), then RC3 is ∗-clean.
If 3 6∈ J (R), then RC3 is ∗-clean ⇐⇒ RC3 is clean and theequation X 2 + X + 1 = 0 has no solutions in R.
Paula Murgel Veloso Cleanliness and group rings
![Page 69: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/69.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Local commutative rings and cyclic groups (contd.)
Theorem (Y. Li, Parmenter & Yuan, 2015 [7])
Let R be a local commutative ring.
If n ∈ J (R), with 3 ≤ n ≤ 5, then RCn is local and ∗-clean.
If n 6∈ J (R), with 3 ≤ n ≤ 5, then RCn is ∗-clean ⇐⇒ RCn isclean and Φn(X ) = 0 has no solutions in R/J (R).
If 3 ∈ J (R), then RC6 is ∗-clean ⇐⇒ RC6 is clean.
If 2 ∈ J (R) or 6 6∈ J (R), then RC6 is ∗-clean ⇐⇒ RC6 isclean and Φ3(X ) = 0 has no solutions in R/J (R).
Paula Murgel Veloso Cleanliness and group rings
![Page 70: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/70.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Local commutative rings and cyclic groups (contd.)
Theorem (Y. Li, Parmenter & Yuan, 2015 [7])
Let R be a local commutative ring.
If n ∈ J (R), with 3 ≤ n ≤ 5, then RCn is local and ∗-clean.
If n 6∈ J (R), with 3 ≤ n ≤ 5, then RCn is ∗-clean ⇐⇒ RCn isclean and Φn(X ) = 0 has no solutions in R/J (R).
If 3 ∈ J (R), then RC6 is ∗-clean ⇐⇒ RC6 is clean.
If 2 ∈ J (R) or 6 6∈ J (R), then RC6 is ∗-clean ⇐⇒ RC6 isclean and Φ3(X ) = 0 has no solutions in R/J (R).
Paula Murgel Veloso Cleanliness and group rings
![Page 71: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/71.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Local commutative rings and cyclic groups (contd.)
Theorem (Y. Li, Parmenter & Yuan, 2015 [7])
Let R be a local commutative ring.
If n ∈ J (R), with 3 ≤ n ≤ 5, then RCn is local and ∗-clean.
If n 6∈ J (R), with 3 ≤ n ≤ 5, then RCn is ∗-clean ⇐⇒ RCn isclean and Φn(X ) = 0 has no solutions in R/J (R).
If 3 ∈ J (R), then RC6 is ∗-clean ⇐⇒ RC6 is clean.
If 2 ∈ J (R) or 6 6∈ J (R), then RC6 is ∗-clean ⇐⇒ RC6 isclean and Φ3(X ) = 0 has no solutions in R/J (R).
Paula Murgel Veloso Cleanliness and group rings
![Page 72: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/72.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Local commutative rings and cyclic groups (contd.)
Theorem (Y. Li, Parmenter & Yuan, 2015 [7])
Let R be a local commutative ring.
If n ∈ J (R), with 3 ≤ n ≤ 5, then RCn is local and ∗-clean.
If n 6∈ J (R), with 3 ≤ n ≤ 5, then RCn is ∗-clean ⇐⇒ RCn isclean and Φn(X ) = 0 has no solutions in R/J (R).
If 3 ∈ J (R), then RC6 is ∗-clean ⇐⇒ RC6 is clean.
If 2 ∈ J (R) or 6 6∈ J (R), then RC6 is ∗-clean ⇐⇒ RC6 isclean and Φ3(X ) = 0 has no solutions in R/J (R).
Paula Murgel Veloso Cleanliness and group rings
![Page 73: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/73.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Local commutative rings and cyclic groups (contd.)
Theorem (Y. Li, Parmenter & Yuan, 2015 [7])
Let R be a local commutative ring.
If n ∈ J (R), with 3 ≤ n ≤ 5, then RCn is local and ∗-clean.
If n 6∈ J (R), with 3 ≤ n ≤ 5, then RCn is ∗-clean ⇐⇒ RCn isclean and Φn(X ) = 0 has no solutions in R/J (R).
If 3 ∈ J (R), then RC6 is ∗-clean ⇐⇒ RC6 is clean.
If 2 ∈ J (R) or 6 6∈ J (R), then RC6 is ∗-clean ⇐⇒ RC6 isclean and Φ3(X ) = 0 has no solutions in R/J (R).
Paula Murgel Veloso Cleanliness and group rings
![Page 74: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/74.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and abelian groups
Let F be a finite field with char(F) = p > 0 and G be a finiteabelian group of exponent nr , with p - nr . (D. Han & Ren, 2017[3])Consider ω ∈ F an nthr primitive root of 1.Then FG is not ∗-clean: let g ∈ G and |〈g〉| = nr ,e = 1
nr
∑nr−1i=0 (ωg)i ∈ FG , e2 = e, but e∗ 6= e.
Theorem [3, Theorem 1.1]
Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ ∃t such that pt ≡ −1 (mod nr ).
Paula Murgel Veloso Cleanliness and group rings
![Page 75: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/75.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and abelian groups
Let F be a finite field with char(F) = p > 0 and G be a finiteabelian group of exponent nr , with p - nr . (D. Han & Ren, 2017[3])
Consider ω ∈ F an nthr primitive root of 1.Then FG is not ∗-clean: let g ∈ G and |〈g〉| = nr ,e = 1
nr
∑nr−1i=0 (ωg)i ∈ FG , e2 = e, but e∗ 6= e.
Theorem [3, Theorem 1.1]
Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ ∃t such that pt ≡ −1 (mod nr ).
Paula Murgel Veloso Cleanliness and group rings
![Page 76: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/76.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and abelian groups
Let F be a finite field with char(F) = p > 0 and G be a finiteabelian group of exponent nr , with p - nr . (D. Han & Ren, 2017[3])Consider ω ∈ F an nthr primitive root of 1.
Then FG is not ∗-clean: let g ∈ G and |〈g〉| = nr ,e = 1
nr
∑nr−1i=0 (ωg)i ∈ FG , e2 = e, but e∗ 6= e.
Theorem [3, Theorem 1.1]
Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ ∃t such that pt ≡ −1 (mod nr ).
Paula Murgel Veloso Cleanliness and group rings
![Page 77: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/77.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and abelian groups
Let F be a finite field with char(F) = p > 0 and G be a finiteabelian group of exponent nr , with p - nr . (D. Han & Ren, 2017[3])Consider ω ∈ F an nthr primitive root of 1.Then FG is not ∗-clean:
let g ∈ G and |〈g〉| = nr ,e = 1
nr
∑nr−1i=0 (ωg)i ∈ FG , e2 = e, but e∗ 6= e.
Theorem [3, Theorem 1.1]
Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ ∃t such that pt ≡ −1 (mod nr ).
Paula Murgel Veloso Cleanliness and group rings
![Page 78: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/78.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and abelian groups
Let F be a finite field with char(F) = p > 0 and G be a finiteabelian group of exponent nr , with p - nr . (D. Han & Ren, 2017[3])Consider ω ∈ F an nthr primitive root of 1.Then FG is not ∗-clean: let g ∈ G and |〈g〉| = nr ,
e = 1nr
∑nr−1i=0 (ωg)i ∈ FG , e2 = e, but e∗ 6= e.
Theorem [3, Theorem 1.1]
Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ ∃t such that pt ≡ −1 (mod nr ).
Paula Murgel Veloso Cleanliness and group rings
![Page 79: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/79.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and abelian groups
Let F be a finite field with char(F) = p > 0 and G be a finiteabelian group of exponent nr , with p - nr . (D. Han & Ren, 2017[3])Consider ω ∈ F an nthr primitive root of 1.Then FG is not ∗-clean: let g ∈ G and |〈g〉| = nr ,e = 1
nr
∑nr−1i=0 (ωg)i ∈ FG ,
e2 = e, but e∗ 6= e.
Theorem [3, Theorem 1.1]
Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ ∃t such that pt ≡ −1 (mod nr ).
Paula Murgel Veloso Cleanliness and group rings
![Page 80: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/80.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and abelian groups
Let F be a finite field with char(F) = p > 0 and G be a finiteabelian group of exponent nr , with p - nr . (D. Han & Ren, 2017[3])Consider ω ∈ F an nthr primitive root of 1.Then FG is not ∗-clean: let g ∈ G and |〈g〉| = nr ,e = 1
nr
∑nr−1i=0 (ωg)i ∈ FG , e2 = e,
but e∗ 6= e.
Theorem [3, Theorem 1.1]
Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ ∃t such that pt ≡ −1 (mod nr ).
Paula Murgel Veloso Cleanliness and group rings
![Page 81: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/81.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and abelian groups
Let F be a finite field with char(F) = p > 0 and G be a finiteabelian group of exponent nr , with p - nr . (D. Han & Ren, 2017[3])Consider ω ∈ F an nthr primitive root of 1.Then FG is not ∗-clean: let g ∈ G and |〈g〉| = nr ,e = 1
nr
∑nr−1i=0 (ωg)i ∈ FG , e2 = e, but e∗ 6= e.
Theorem [3, Theorem 1.1]
Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ ∃t such that pt ≡ −1 (mod nr ).
Paula Murgel Veloso Cleanliness and group rings
![Page 82: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/82.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and abelian groups
Let F be a finite field with char(F) = p > 0 and G be a finiteabelian group of exponent nr , with p - nr . (D. Han & Ren, 2017[3])Consider ω ∈ F an nthr primitive root of 1.Then FG is not ∗-clean: let g ∈ G and |〈g〉| = nr ,e = 1
nr
∑nr−1i=0 (ωg)i ∈ FG , e2 = e, but e∗ 6= e.
Theorem [3, Theorem 1.1]
Consider ω 6∈ F an nthr primitive root of 1.
Then FG is ∗-clean ⇐⇒ ∃t such that pt ≡ −1 (mod nr ).
Paula Murgel Veloso Cleanliness and group rings
![Page 83: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/83.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and abelian groups
Let F be a finite field with char(F) = p > 0 and G be a finiteabelian group of exponent nr , with p - nr . (D. Han & Ren, 2017[3])Consider ω ∈ F an nthr primitive root of 1.Then FG is not ∗-clean: let g ∈ G and |〈g〉| = nr ,e = 1
nr
∑nr−1i=0 (ωg)i ∈ FG , e2 = e, but e∗ 6= e.
Theorem [3, Theorem 1.1]
Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ ∃t such that pt ≡ −1 (mod nr ).
Paula Murgel Veloso Cleanliness and group rings
![Page 84: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/84.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and abelian groups (cont.)
Theorem (D. Han & Ren, 2017 [3, Theorem 1.2])
Let F be a field with char(F) = 0 and G be a finite abelian groupof exponent nr . Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ F(ω + ω−1) ( F(ω).
Theorem (D. Han & Ren, 2017 [3, Theorem 1.3])
Let F be a field with char(F) = 0 and G be a finite abelian groupof exponent nr = pk or 2pk , with p an odd prime and k ∈ Z,k > 0. Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ 2 | [F(ω) : F].
Paula Murgel Veloso Cleanliness and group rings
![Page 85: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/85.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and abelian groups (cont.)
Theorem (D. Han & Ren, 2017 [3, Theorem 1.2])
Let F be a field with char(F) = 0 and G be a finite abelian groupof exponent nr .
Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ F(ω + ω−1) ( F(ω).
Theorem (D. Han & Ren, 2017 [3, Theorem 1.3])
Let F be a field with char(F) = 0 and G be a finite abelian groupof exponent nr = pk or 2pk , with p an odd prime and k ∈ Z,k > 0. Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ 2 | [F(ω) : F].
Paula Murgel Veloso Cleanliness and group rings
![Page 86: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/86.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and abelian groups (cont.)
Theorem (D. Han & Ren, 2017 [3, Theorem 1.2])
Let F be a field with char(F) = 0 and G be a finite abelian groupof exponent nr . Consider ω 6∈ F an nthr primitive root of 1.
Then FG is ∗-clean ⇐⇒ F(ω + ω−1) ( F(ω).
Theorem (D. Han & Ren, 2017 [3, Theorem 1.3])
Let F be a field with char(F) = 0 and G be a finite abelian groupof exponent nr = pk or 2pk , with p an odd prime and k ∈ Z,k > 0. Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ 2 | [F(ω) : F].
Paula Murgel Veloso Cleanliness and group rings
![Page 87: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/87.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and abelian groups (cont.)
Theorem (D. Han & Ren, 2017 [3, Theorem 1.2])
Let F be a field with char(F) = 0 and G be a finite abelian groupof exponent nr . Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ F(ω + ω−1) ( F(ω).
Theorem (D. Han & Ren, 2017 [3, Theorem 1.3])
Let F be a field with char(F) = 0 and G be a finite abelian groupof exponent nr = pk or 2pk , with p an odd prime and k ∈ Z,k > 0. Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ 2 | [F(ω) : F].
Paula Murgel Veloso Cleanliness and group rings
![Page 88: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/88.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and abelian groups (cont.)
Theorem (D. Han & Ren, 2017 [3, Theorem 1.2])
Let F be a field with char(F) = 0 and G be a finite abelian groupof exponent nr . Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ F(ω + ω−1) ( F(ω).
Theorem (D. Han & Ren, 2017 [3, Theorem 1.3])
Let F be a field with char(F) = 0 and G be a finite abelian groupof exponent nr = pk or 2pk , with p an odd prime and k ∈ Z,k > 0.
Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ 2 | [F(ω) : F].
Paula Murgel Veloso Cleanliness and group rings
![Page 89: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/89.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and abelian groups (cont.)
Theorem (D. Han & Ren, 2017 [3, Theorem 1.2])
Let F be a field with char(F) = 0 and G be a finite abelian groupof exponent nr . Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ F(ω + ω−1) ( F(ω).
Theorem (D. Han & Ren, 2017 [3, Theorem 1.3])
Let F be a field with char(F) = 0 and G be a finite abelian groupof exponent nr = pk or 2pk , with p an odd prime and k ∈ Z,k > 0. Consider ω 6∈ F an nthr primitive root of 1.
Then FG is ∗-clean ⇐⇒ 2 | [F(ω) : F].
Paula Murgel Veloso Cleanliness and group rings
![Page 90: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/90.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and abelian groups (cont.)
Theorem (D. Han & Ren, 2017 [3, Theorem 1.2])
Let F be a field with char(F) = 0 and G be a finite abelian groupof exponent nr . Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ F(ω + ω−1) ( F(ω).
Theorem (D. Han & Ren, 2017 [3, Theorem 1.3])
Let F be a field with char(F) = 0 and G be a finite abelian groupof exponent nr = pk or 2pk , with p an odd prime and k ∈ Z,k > 0. Consider ω 6∈ F an nthr primitive root of 1.Then FG is ∗-clean ⇐⇒ 2 | [F(ω) : F].
Paula Murgel Veloso Cleanliness and group rings
![Page 91: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/91.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Local commutative rings and non-abelian groups
Theorem (Gao, Chen & Y. Li, 2015 [2])
Let R be a local commutative ring with 2 ∈ J (R). Then RS3 isclean, but not ∗-clean.
Theorem (Gao, Chen & Y. Li, 2015 [2])
Let R be a local commutative ring.
If 2 ∈ J (R), then RQ8 is ∗-clean.
If 2 ∈ U(R), then RQ8 is ∗-clean ⇐⇒ RQ8 is clean and theequation X 2 + Y 2 + Z 2 + 1 = 0 has no solutions in R.
Paula Murgel Veloso Cleanliness and group rings
![Page 92: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/92.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Local commutative rings and non-abelian groups
Theorem (Gao, Chen & Y. Li, 2015 [2])
Let R be a local commutative ring with 2 ∈ J (R). Then RS3 isclean, but not ∗-clean.
Theorem (Gao, Chen & Y. Li, 2015 [2])
Let R be a local commutative ring.
If 2 ∈ J (R), then RQ8 is ∗-clean.
If 2 ∈ U(R), then RQ8 is ∗-clean ⇐⇒ RQ8 is clean and theequation X 2 + Y 2 + Z 2 + 1 = 0 has no solutions in R.
Paula Murgel Veloso Cleanliness and group rings
![Page 93: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/93.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Local commutative rings and non-abelian groups
Theorem (Gao, Chen & Y. Li, 2015 [2])
Let R be a local commutative ring with 2 ∈ J (R). Then RS3 isclean, but not ∗-clean.
Theorem (Gao, Chen & Y. Li, 2015 [2])
Let R be a local commutative ring.
If 2 ∈ J (R), then RQ8 is ∗-clean.
If 2 ∈ U(R), then RQ8 is ∗-clean ⇐⇒ RQ8 is clean and theequation X 2 + Y 2 + Z 2 + 1 = 0 has no solutions in R.
Paula Murgel Veloso Cleanliness and group rings
![Page 94: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/94.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Local commutative rings and non-abelian groups
Theorem (Gao, Chen & Y. Li, 2015 [2])
Let R be a local commutative ring with 2 ∈ J (R). Then RS3 isclean, but not ∗-clean.
Theorem (Gao, Chen & Y. Li, 2015 [2])
Let R be a local commutative ring.
If 2 ∈ J (R), then RQ8 is ∗-clean.
If 2 ∈ U(R), then RQ8 is ∗-clean ⇐⇒ RQ8 is clean and theequation X 2 + Y 2 + Z 2 + 1 = 0 has no solutions in R.
Paula Murgel Veloso Cleanliness and group rings
![Page 95: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/95.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Local commutative rings and dihedral groups
Theorem (Huang, Y. Li & Tang, 2016 [5])
Let R be a local commutative ring and D2pk be the dihedral group
of order 2pk , with p a prime. If p ∈ J (R), then RD2pk is ∗-clean
Theorem (Huang, Y. Li & Tang, 2016 [5])
Let R be a local commutative ring with 2 ∈ J (R), and D2n thedihedral group of order 2n. If n is not a power of 2, then RD2n isnot ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 96: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/96.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Local commutative rings and dihedral groups
Theorem (Huang, Y. Li & Tang, 2016 [5])
Let R be a local commutative ring and D2pk be the dihedral group
of order 2pk , with p a prime.
If p ∈ J (R), then RD2pk is ∗-clean
Theorem (Huang, Y. Li & Tang, 2016 [5])
Let R be a local commutative ring with 2 ∈ J (R), and D2n thedihedral group of order 2n. If n is not a power of 2, then RD2n isnot ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 97: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/97.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Local commutative rings and dihedral groups
Theorem (Huang, Y. Li & Tang, 2016 [5])
Let R be a local commutative ring and D2pk be the dihedral group
of order 2pk , with p a prime. If p ∈ J (R), then RD2pk is ∗-clean
Theorem (Huang, Y. Li & Tang, 2016 [5])
Let R be a local commutative ring with 2 ∈ J (R), and D2n thedihedral group of order 2n. If n is not a power of 2, then RD2n isnot ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 98: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/98.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Local commutative rings and dihedral groups
Theorem (Huang, Y. Li & Tang, 2016 [5])
Let R be a local commutative ring and D2pk be the dihedral group
of order 2pk , with p a prime. If p ∈ J (R), then RD2pk is ∗-clean
Theorem (Huang, Y. Li & Tang, 2016 [5])
Let R be a local commutative ring with 2 ∈ J (R), and D2n thedihedral group of order 2n.
If n is not a power of 2, then RD2n isnot ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 99: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/99.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Local commutative rings and dihedral groups
Theorem (Huang, Y. Li & Tang, 2016 [5])
Let R be a local commutative ring and D2pk be the dihedral group
of order 2pk , with p a prime. If p ∈ J (R), then RD2pk is ∗-clean
Theorem (Huang, Y. Li & Tang, 2016 [5])
Let R be a local commutative ring with 2 ∈ J (R), and D2n thedihedral group of order 2n. If n is not a power of 2, then RD2n isnot ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 100: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/100.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and dihedral/quaternion groups
Theorem (Huang, Y. Li & Tang, 2016 [5])
QD2n is ∗-clean.
Theorem (Huang, Y. Li & Tang, 2016 [5])
If gcd(q, 2n) = 1, then FD2n is ∗-clean.
Theorem (Huang, Y. Li & Tang, 2016 [5])
If 4 | n and gcd(q, 2n) = 1, then FQ2n is not ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 101: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/101.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and dihedral/quaternion groups
Theorem (Huang, Y. Li & Tang, 2016 [5])
QD2n is ∗-clean.
Theorem (Huang, Y. Li & Tang, 2016 [5])
If gcd(q, 2n) = 1, then FD2n is ∗-clean.
Theorem (Huang, Y. Li & Tang, 2016 [5])
If 4 | n and gcd(q, 2n) = 1, then FQ2n is not ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 102: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/102.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and dihedral/quaternion groups
Theorem (Huang, Y. Li & Tang, 2016 [5])
QD2n is ∗-clean.
Theorem (Huang, Y. Li & Tang, 2016 [5])
If gcd(q, 2n) = 1, then FD2n is ∗-clean.
Theorem (Huang, Y. Li & Tang, 2016 [5])
If 4 | n and gcd(q, 2n) = 1, then FQ2n is not ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 103: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/103.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Abelian caseNon-abelian case
Fields and dihedral/quaternion groups
Theorem (Huang, Y. Li & Tang, 2016 [5])
QD2n is ∗-clean.
Theorem (Huang, Y. Li & Tang, 2016 [5])
If gcd(q, 2n) = 1, then FD2n is ∗-clean.
Theorem (Huang, Y. Li & Tang, 2016 [5])
If 4 | n and gcd(q, 2n) = 1, then FQ2n is not ∗-clean.
Paula Murgel Veloso Cleanliness and group rings
![Page 104: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/104.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
V. P. Camillo, D. Khurana, A characterization of unit-regularrings, Communications in Algebra 29 (2001), 2293 – 2295.
Y. Gao, J. Chen, Y. Li, Some ∗-clean Group Rings, AlgebraColloquium 22 (2015) 169–180.
D. Han, Y. Ren, On ∗-clean group rings over abelian groups,Journal of Algebra and Its Applications 16 (2017), 1750152(11 pages).
J. Han, W. K. Nicholson, Extensions of clean rings,Communications in Algebra 29 (2001), 2589–2595.
H. Huang, Y. Li, G. Tang, On ∗-clean non-commutative grouprings , Journal of Algebra and Its Applications 15 (2016)1650150 (17 pages).
Paula Murgel Veloso Cleanliness and group rings
![Page 105: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/105.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
C. Li, Y. Zhou, On strongly ∗-clean rings, J. Algebra Appl. 10(2011) 1363–1370.
Y. Li, M. M. Parmenter, P. Yuan, On ∗-clean group rings,Journal of Algebra and Its Applications 14 (2015).
W. K. Nicholson, Local group rings, Canadian MathematicalBulletin 15 (1972), 137 – 138.
W. K. Nicholson, Lifting idempotents and exchange rings,Transactions of the AMS 229 (1977), 269 – 278.
W. K. Nicholson, Y. Zhou, Rings in which elements areuniquely the sum of an idempotent and a unit, GlasgowMathematical Journal 46 (2004), 227 – 236.
Paula Murgel Veloso Cleanliness and group rings
![Page 106: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/106.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
L. Vas, ∗-Clean rings; some clean and almost clean Baer∗-rings and von Neumann algebras, J. Algebra 324 (2010),3388–3400.
Paula Murgel Veloso Cleanliness and group rings
![Page 107: Cleanliness and group ringshomepages.vub.ac.be/~abachle/gryb/slides/Veloso_Slides.pdf · Cleanliness and group rings Paula Murgel Veloso Universidade Federal Fluminense (UFF), Niter](https://reader033.vdocuments.site/reader033/viewer/2022060404/5f0f069a7e708231d4421e6b/html5/thumbnails/107.jpg)
Cleanliness in ringsMotivation
Group RingsResults
References
Thank you for your attention!
(officially not celebrating Eric Jespers’ 62nd birthday)Paula Murgel Veloso Cleanliness and group rings