noncollinear optical parametric amplifiers for ultra ...1024 w/cm2 omega ep target chamber kdp...
TRANSCRIPT
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J. Bromage, R. G. Roides S.-W. Bahk, J. B. Oliver, C. Mileham, C. Dorrer, and J. D. ZuegelUniversity of RochesterLaboratory for Laser Energetics
6th International Symposium on Ultrafast Photonic Technologies
(ISUPT) 2013Rochester, NY
21–22 October 2013
Noncollinear Optical Parametric Amplifiers for Ultra-Intense Lasers
10 J, 1.5 ns,160 nm
200 PW 1024 W/cm2
OMEGA EPtarget chamber
KDPType II Polarizer
KDPType II Polarizer
Existing OMEGA EP will be usedto pump OMEGA EP-OPAL
Beamline 2
Beamline 3
Beamline 4
Beamline 1
Compressor
3 kJ, 15 fs
Ultra-broadbandfront end
DKDP
DKDP
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Optical parametric chirped-pulse amplification (OPCPA) offers the potential for intensities exceeding 1024 W/cm2
Summary
• LLE is developing the technologies necessary for an ultra-intense OPCPA system pumped by OMEGA EP
• Large DKDP1 crystals can provide ~200 nm of gain, centered at 910 nm
– sufficient bandwidth to support ~15-fs pulses
– pumped by existing kilojoule Nd:glass lasers
– grown in large sizes, so they can scale-up energy to kilojoule level
• A midscale optical parametric amplifier line (OPAL) is under construction
– 15 fs, 7.5 J, 1022 W/cm2
– demonstrate technologies that are scalable to a kilojoule system
1Deuterated potassium dihydrogen phosphate E22262
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Many people (internal and external) have contributed to this project
Laser development and optical engineering: S.-W. Bahk I. A. Begishev J. Bunkenburg C. Dorrer R. K. Jungquist T. J. Kessler E. Kowaluk L. McIntire C. Mileham M. Millecchia S. F. B. Morse A. V. Okishev J. B. Oliver R. G. Roides J. D. Zuegel
Mechanical: G. Gates J. Magoon G. Martin J. Martin M. J. Shoup III R. Taylor
Electrical: W. A. Bittle G. Kick R. G. Peck
System: A. Agliata C. Rees
Experimental: D. H. Froula D. Haberberger D. D. Meyerhofer J. F. Myatt P. M. Nilson C. Stoeckl
External: N. Anderson (Semrock) J. Fini (OFS) S. Hädrich (Jena) M. Kirchner (KMLabs) E. Riedle (LMU) J. Rothhardt (Jena) C. Hall (QED)
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An ultra-intense OPCPA extension to OMEGA EP would reach focused intensities approaching 1024 W/cm2
This laser would be a world-class tool for fundamental science at new intensity regimes.
Monoenergetic c for nuclear science
Protons – relativistic above 1021 W/cm2
Laser
Gammaphotons
~3 × 1014 atm
Protons
Laserpulse
Electrons – accelerated to & 1 GeV
Trappedelectrons
++++++
–––––
––++++
++++++++
Laser pulse
Ionizationfront
Instantaneouselectrondensity
mP - plasma wavelength
Attosecondpulse
Filter
Plasma
Incidentpulse
Attosecond pulses from relativisticmirrors for QED studies
–––
––––– –––
Electronbeam
EzEzEz
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Noncollinear optical parametric amplifiers (NOPA’s) amplify pulses using a nonlinear three-wave process
Nonlinearcrystal |(2)
IdlerSignal
PumpAmplified
signalSignal
bandwidth
(Angles exaggeratedfor clarity)
a kP
kI" ,kS" ,
• Energy conservation:
• Momentum conservation:(use crystal birefringence)
I"' ' '~ ~ ~+P S
k k kI"' ' '+P S“phase matching”
X
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Noncollinear optical parametric amplifiers (NOPA’s) amplify pulses using a nonlinear three-wave process
Nonlinearcrystal |(2)
IdlerSignal
PumpAmplified
signalSignal
bandwidth
(Angles exaggeratedfor clarity)
a kP
kI" ,kS" ,
• Energy conservation:
• Momentum conservation:(use crystal birefringence)
• Noncollinear angle for maximum bandwidth:(matches group velocities of signal and idler)
I"' ' '~ ~ ~+P S
k k kI"' ' '+P S“phase matching”
k kcos I
IbbS
S22
22
~ ~X =e eo o
X
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Noncollinear optical parametric amplifiers (NOPA’s) amplify pulses using a nonlinear three-wave process
Nonlinearcrystal |(2)
IdlerSignal
PumpAmplified
signalSignal
bandwidth
(Angles exaggeratedfor clarity)
a kP
kI" ,kS" ,
• Energy conservation:
• Momentum conservation:(use crystal birefringence)
• Noncollinear angle for maximum bandwidth:(matches group velocities of signal and idler)
• Ultra-broadband phase matching occurs when stationary to second order:
I"' ' '~ ~ ~+P S
k k kI"' ' '+P S“phase matching”
k kcos I
IbbS
S22
22
~ ~X =e eo o
k kkcosSI
I
Imagic2
2
2
2 2
S S2
2
2
222
~ ~ ~XX+ =f f cp p m
X
E20591d
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Ultra-broadband phase matching occurs at an inflection point in the phase-matching curves
1050
1000
950
900
850
800
750
Sig
nal
wav
elen
gth
(n
m)
Pump internal angle (°)
Phase-matchingcurves for different aPhase-matchingcurves for different a
Phase-matching for DKDPPhase-matching for DKDP
a = 0.56°a = 0.56° 0.68°0.68° 0.80°0.80° 0.92°0.92°1.03°1.03°
36.7 36.8 36.9 37.0 37.1 37.2 37.3
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Ultra-broadband phase matching occurs at an inflection point in the phase-matching curves
1050
1000
950
900
850
800
750
Sig
nal
wav
elen
gth
(n
m)
Pump internal angle (°)
Locus ofstationarypoints
Locus ofstationarypoints Inflection
pointInflectionpoint
Phase-matchingcurves for different aPhase-matchingcurves for different a
Phase-matching for DKDPPhase-matching for DKDP
a = 0.56°a = 0.56° 0.68°0.68° 0.80°0.80° 0.92°0.92°1.03°1.03°
36.7 36.8 36.9 37.0 37.1 37.2 37.3
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NOPA’s have many advantages for ultra-intense lasers over traditional gain media (e.g., Ti:sapphire)
Property Benefit
Broadband gain (>170 nm) Pulse widths <12 fs
High gain (>104) Amplifiers only few centimeters thick
Large crystals (>40 cm) Scale beam size for kilojoule pumping
Idler removes excess energy Minimal thermal issues
Unidirectional gain (a) No transverse amplified spontaneous emission (ASE)
(b) No gain for retroreflections
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NOPA properties place tighter requirements on the pump lasers
Property Requirement
Instantaneous gain Must match pump pulse to signal
Phase-matched process Coherent pump with low divergence
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• Many crystal options • Only KDP and DKDP can be grown large enough for multijoule OPA’s
Small-scale NOPA (~mm, ~mJ)
PumpPump
Signal
Signal (chirped)
Large-scale NOPA (~m, ~kJ)
The optimum crystal choice depends on the scale of the amplifier, which is set by the aperture and pump energy
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• Many crystal options
• A number of pump technologies are available (Ti:Sa, Yb, Nd, etc.)
• Only KDP and DKDP can be grown large enough for multijoule OPA’s
• Kilojoule pump sources are more limited (Nd:glass, iodine)
Small-scale NOPA (~mm, ~mJ)
PumpPump
Signal
Signal (chirped)
Large-scale NOPA (~m, ~kJ)
The optimum crystal choice depends on the scale of the amplifier, which is set by the aperture and pump energy
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• Many crystal options
• A number of pump technologies are available (Ti:Sa, Yb, Nd, etc.)
• Light wave synthesizer (MPQ)
– 4.5 fs, 18 TW, 1020 W/cm2
• Only KDP and DKDP can be grown large enough for multijoule OPA’s
• Kilojoule pump sources are more limited (Nd:glass, iodine)
• Several labs working in this area– Rutherford Appleton
Laboratory, UK– Institute of Applied Physics,
Russia
Small-scale NOPA (~mm, ~mJ)
PumpPump
Signal
Signal (chirped)
Large-scale NOPA (~m, ~kJ)
The optimum crystal choice depends on the scale of the amplifier, which is set by the aperture and pump energy
E18612d
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Of the many types of nonlinear media, three crystals are widely used for ultra-broadband NOPA’s
Property BBO LBO DKDP
Name b-barium borate
Lithium triborate
Potassium dihydrogen phosphate
Effective nonlinearity (deff, pm/V) 2.2 0.82 0.23
Pump-signal angle(a, internal, mP = 527 nm, mS = 910 nm) 2.2° 1.39° 0.91°
Crystal length (small-signal gain = 104, IP = 5 GW/cm2) 4.5 mm 11.5 mm 37.0 mm
Gain bandwidth (FWHM, small-signal gain = 104) 185 nm 245 nm 178 nm
Maximum aperture size ~20 mm ~50 mm ~500 mm
E22264
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For larger-aperture OPCPA, DKDP provides broadband gain when pumped by frequency-doubled Nd:glass lasers
DKDP gain (small signal)mP = 526.5 nm
Pump-signal angle = 0.91°
–1000 –500 0 500 1000
1050
1000
950
900
850
800
Pump angle deviation (nrad)
0
2
4
6
8
10×104
Signalspectrumcenteredat 910 nm
500 nrad 500 nrad
180 nm180 nm
Sig
nal
wav
elen
gth
(n
m)
Sm
all-
sig
nal
gai
n(I
P =
4 G
W/c
m2 ,
L =
50
mm
)
E22267
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Focal intensities of 1024 W/cm2 are possible with an OPAL system pumped by OMEGA EP
40 × 370 mm, square
14 × 370 mm, square
10 J, 1.5 ns, 160 nm 6 kJ 1.5 ns
2.5 kJ
200 PW 1024 W/cm2
OMEGA EPtarget chamber
60%, 1.4-m × 1.4-m beam300 mJ/cm2
KDPType II Polarizer
5.0 kJ
4 kJ 1.5 ns
6 kJ 1.5 ns
KDPType II Polarizer
An existing OMEGA EP beamline willbe used to pump OMEGA EP-OPAL
Beamline 2
Beamline 3
Beamline 4
Beamline 1
Compressor
3 kJ, 15 fs
Ultra-broadbandfront end
DKDP
DKDP
527 nm810 to 1010 nm1053 nm
E20382c
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The MTW-OPAL system is being built as a stepping- stone to develop and demonstrate scalable technologies
527 nm810 to 1010 nm1053 nm
YAG1.0 nJ
600 nJ
400 nJ
12.5 J
5 mJ
0.5 mJ
300 mJ
7.5 J, 15 fs,1022 W/cm2
Built
Underconstruction
Completedconceptual design
Nd:YLF: 1.5 ns, 2 J, 5 Hz
Nd:glass: 1.5 ns, 60 J, 1 shot/20 min
Fiber CPA: 250 fs, 500-kHz
BBO
BBO
Stretch to1.5 ns
BBO
DKDP
BBO
White light
Compressto 15 fs
Opticalsync
1.7 nJ
4.0 nJ
7 mJ
35 mJ
Nd:YLF: 10 ps, 50 mJ, 5 Hz
Multi-Terawatt laser (MTW)
E22268
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The MTW-OPAL system is being built as a stepping- stone to develop and demonstrate scalable technologies
527 nm810 to 1010 nm1053 nm
YAG1.0 nJ
600 nJ
400 nJ
12.5 J
5 mJ
0.5 mJ
300 mJ
7.5 J, 15 fs,1022 W/cm2
Built
Underconstruction
Completedconceptual design
Nd:YLF: 1.5 ns, 2 J, 5 Hz
Nd:glass: 1.5 ns, 60 J, 1 shot/20 min
Fiber CPA: 250 fs, 500-kHz
BBO
BBO
Stretch to1.5 ns
BBO
DKDP
BBO
White light
Compressto 15 fs
Opticalsync
1.7 nJ
4.0 nJ
7 mJ
35 mJ
Nd:YLF: 10 ps, 50 mJ, 5 Hz
Multi-Terawatt laser (MTW)
E22268a
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The MTW-OPAL system is being built as a stepping- stone to develop and demonstrate scalable technologies
527 nm810 to 1010 nm1053 nm
YAG1.0 nJ
600 nJ
400 nJ
12.5 J
5 mJ
0.5 mJ
300 mJ
7.5 J, 15 fs,1022 W/cm2
Built
Underconstruction
Completedconceptual design
Nd:YLF: 1.5 ns, 2 J, 5 Hz
Nd:glass: 1.5 ns, 60 J, 1 shot/20 min
Fiber CPA: 250 fs, 500-kHz
BBO
BBO
Stretch to1.5 ns
BBO
DKDP
BBO
White light
Compressto 15 fs
Opticalsync
1.7 nJ
4.0 nJ
7 mJ
35 mJ
Nd:YLF: 10 ps, 50 mJ, 5 Hz
Multi-Terawatt laser (MTW)
E22268b
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The MTW-OPAL system is being built as a stepping- stone to develop and demonstrate scalable technologies
527 nm810 to 1010 nm1053 nm
YAG1.0 nJ
600 nJ
400 nJ
12.5 J
5 mJ
0.5 mJ
300 mJ
7.5 J, 15 fs,1022 W/cm2
Built
Underconstruction
Completedconceptual design
Nd:YLF: 1.5 ns, 2 J, 5 Hz
Nd:glass: 1.5 ns, 60 J, 1 shot/20 min
Fiber CPA: 250 fs, 500-kHz
BBO
BBO
Stretch to1.5 ns
BBO
DKDP
BBO
White light
Compressto 15 fs
Opticalsync
1.7 nJ
4.0 nJ
7 mJ
35 mJ
Nd:YLF: 10 ps, 50 mJ, 5 Hz
Multi-Terawatt laser (MTW)
E22268c
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The MTW-OPAL system is being built as a stepping- stone to develop and demonstrate scalable technologies
527 nm810 to 1010 nm1053 nm
YAG1.0 nJ
600 nJ
400 nJ
12.5 J
5 mJ
0.5 mJ
300 mJ
7.5 J, 15 fs,1022 W/cm2
Built
Underconstruction
Completedconceptual design
Nd:YLF: 1.5 ns, 2 J, 5 Hz
Nd:glass: 1.5 ns, 60 J, 1 shot/20 min
Fiber CPA: 250 fs, 500-kHz
BBO
BBO
Stretch to1.5 ns
BBO
DKDP
BBO
White light
Compressto 15 fs
Opticalsync
1.7 nJ
4.0 nJ
7 mJ
35 mJ
Nd:YLF: 10 ps, 50 mJ, 5 Hz
Multi-Terawatt laser (MTW)
E22268d
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A new 1430-ft2 laboratory for MTW-OPAL was recently completed next to the MTW laser and the UFE installed
MTW-OPAL will be integrated with the existing MTW Laser System to maximize experimental flexibility.
E22251b
MTW–OPAL
MTW laser
LDL–Annex
Laser DevelopmentLaboratory (LDL)
HEIGHT=37.5"HEIGHT=37.5"
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MTW-OPAL is at the midpoint of its development
Today
20132009 201720152011
15 fs7.5 J
1021 W/cm2
Contrast >1010
OPAL demoContrast > 1012
Pulse width = 13 fs 200-nm stretcherand compressor
Prototypetesting
Phasecontrol
Systemdesign
Coatingdevelopment
–50 50–1000.0
0 100Time (fs)
Po
wer
(ar
bit
rary
)
0.5
1.0Measured Fourier
limit
–100–200Delay (ps)
0
Cro
ss-c
orr
elat
ion
(d
B)
–120
–80
–40
0
Detection noise floor
810 nm910 nm1010 nm
G1
G2 SecondaryPrimary
Flatmirror
Joule-scale DKDPamplifiers, pumped
by MTW
E22271
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Summary/Conclusions
Optical parametric chirped-pulse amplification (OPCPA) offers the potential for intensities exceeding 1024 W/cm2
MTW-OPAL is a stepping stone to the full-scale system, and will provide a focal point for collaborative development and femtosecond experiments.
• LLE is developing the technologies necessary for an ultra-intense OPCPA system pumped by OMEGA EP
• Large DKDP1 crystals can provide ~200 nm of gain, centered at 910 nm
– sufficient bandwidth to support ~15-fs pulses
– pumped by existing kilojoule Nd:glass lasers
– grown in large sizes, so they can scale-up energy to kilojoule level
• A midscale optical parametric amplifier line (OPAL) is under construction
– 15 fs, 7.5 J, 1022 W/cm2
– demonstrate technologies that are scalable to a kilojoule system
1Deuterated potassium dihydrogen phosphate E22262
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The Light Wave Synthesizer 20 (LWS-20) at MPQ is currently the most intense quasi-single-cycle system
• Pulse width: 4.5 fs
• Energy: 80 mJ
• Peak power: 18 TW
• Intensity: ~1020 W/cm2 (f/1.5)
D. Herrmann et al. Opt. Exp. 18, 18752 (2010).
1.0
0.8
0.6
0.4
0.2
0.0
1.0
0.8
0.6
0.4
0.2
0.0
Sig
nal
inte
nsi
ty (
arb
itra
ry u
nit
s)
Sp
ectr
al p
has
e (r
ad)
Wavelength (nm)
600 700 800 900 1000–3
–2
1
0
1
2
3
3~pump
2~pump
–20 –10 0 10
Tem
po
ral i
nte
nsi
ty (
arb
itra
ry u
nit
s)
FWHM:4.5 fsFWHM:4.5 fs
Time (fs)
20
MeasuredFourier limit
IntensityPhase
Temporal intensity Spectral intensity and phase
• Uses four BBO-based NOPA stages
• Bandwidth from 575 to 1020 nm using two-color pumping*
• Repetition rate: 10 Hz
E22266
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PEARL-101 Vulcan 10 Petawatt2
• Institute of Applied Physics, Russia
• Goal: 100 J in 20 fs
• Upgrading 0.56-PW system (PEARL – PEtawatt pARametric Laser)
• Generate 910-nm pulse by seeding a NOPA with an angularly dispersed “idler” at 1250 nm
• Rutherford Appleton Laboratory, UK
• Goal: 300 J in 30 fs
• Front end produces 1-J, 150-nm-wide pulses
• Generate 910-nm pulse using the idler from a chirped-collinear geometry
Ultra-intense OPCPA systems using DKDP are being developed at several facilities
Pump laser527 nm
Cr:forsterite1250 nm
Pump laser400 nm
Ti:sapphire720 nm
Tune angular dispersion
910 nm 910 nm
DKDPTune pump chirp
LBO
i(~)
z2
1 V. V. Lozhkarev et al., Laser Phys. Lett. 4, 421 (2007). 2 Y. Tang et al., Opt. Lett. 33, 2386 (2008).E20944