prospects for neutrino and astroparticle physics
TRANSCRIPT
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Prospects for Neutrino and Astroparticle Physics
A view to the next decade
NOW 2016 Christian Spiering, DESY Zeuthen
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Content
Dark Matter
Neutrino mass & Majorana vs. Dirac
Oscillation physics/sterile neutrinos
Solar and geo-neutrinos
High Energy Universe
Reality vs. Plans
(some remarks on roadmapping and the value of predictions)
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* focussing here to WIMP Dark Matter
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Threefold approach to search for WIMPs
e+, anti-proton
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2016 view: steepening gradient
Taken from Gaitskell, UCLA DM Workshop Feb 2016
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The moment of truth …
Gianfranco Bertone: „The moment of truth for WIMP dark matter“ (Nature 468, 389-393, 2010)
Amongst the many Dark Matter candidates proposed, WIMPs occupy a special place, as they arise naturally from well motivated extensions of the standard model of particle physics.
With the advent of the Large Hadron Collider at CERN, and a new generation of astroparticle experiments, the moment of truth has come for WIMPs:
Either we will discover them in the next five to ten years, or we will witness the inevitable decline of WIMPs.
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The moment of truth …
Gianfranco Bertone: „The moment of truth for WIMP dark matter“ (Nature 468, 389-393, 2010)
In absence of any signal we would be left with the nightmare Dark Matter scenario of null searches at the LHC, direct and indirect detection experiments, a circumstance that would likely mark the decline of the WIMPs, in favor of alternative explanations, such as axions or alternative theories of gravity, provided that they can be reconciled with lensing observations.
Let us stay optimistic, though. The plans to detect Dark Matter in the near future have been laid out carefully, and they deserve to be carried out with the outmost care, as a discovery would mark the start of a new era of physics, and it would represent the best reward to decades of painstaking searches.
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Change of WIMP search paradigm?
Prove or disprove CMSSM with direct and indirect DM searches and SUSY searches @ LHC
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Change of WIMP search paradigm?
Prove or disprove CMSSM with direct and indirect DM searches and SUSY searches @ LHC
pMSSM
NMSSM
mSUGRA
asymmetric DM
+ ….
+ ….
Cover the cross section / mass parameter space down to the neutrino floor!
Exploit WIMP detectors for DBD, axion search, solar physics, …
including models with
low-mass predictions,
down to sub-GeV
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Change of WIMP search paradigm?
Prove or disprove CMSSM with direct and indirect DM searches and SUSY searches @ LHC
pMSSM
NMSSM
mSUGRA
Anapole DM
asymmetric DM
…
Cover the cross section / mass parameter space down to the neutrino floor!
Exploit WIMP detectors for DBD, axion search, solar physics, …
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Change of WIMP search paradigm?
Prove or disprove CMSSM with direct and indirect DM searches and SUSY searches @ LHC
pMSSM
NMSSM
mSUGRA
Anapole DM
asymmetric DM
…
Cover the cross section / mass parameter space down to the neutrino floor!
Exploit WIMP detectors for DBD, axion search, solar physics, …
arXiv:1606.07001
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Change of WIMP search paradigm?
Prove or disprove CMSSM with direct and indirect DM searches and SUSY searches @ LHC
pMSSM
NMSSM
mSUGRA
Anapole DM
asymmetric DM
…
Cover the cross section / mass parameter space down to the neutrino floor!
Exploit WIMP detectors for DBD, axion search, solar physics, …
from talk of L.Shutt, SLAC expectation
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Noble Liquids: multi-ton projects
LZ 10/7t LXe 2019
XENONnT 5.7t/.. LXe 2019
PANDA-X 20t/.. Lxe 2019
DARWIN 50/40t LXe 2024
Darkside 30t LAr depl. ? (via DS 50kg)
DEAP 50t LAr depl. ? (via Deap3600 starting 2016)
Also: CLEAN, X-MASS, ArDM, …
join?
100t LAr?
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Low WIMP masses: bolometric and scint.
bolometric: small target masses, low threshold
CRESST (< 1 kg)
Edelweiss III
SuperCDMS (50 kg) 2020
NaI: scrutinize DAMA/LIBRA DAMA/LIBRA Phase III, 1 ton, directionality
ANAIS 113 kg (Canfranc)
DM-Ice 55 kg and KIMS 50 kg (Yangyang)
SABRE (LNGS and Australia) start contruction 2017
DM-Ice (South Pole) start construction 2022?
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Summary WIMP Dark Matter
Some loss of momentum in case of no SUSY at LHC
Present gradient of sensitivity improvement is impressive
Prove/disprove annual DAMA/LIBRA annual modulation: seems in reach in the early-mid 2020s
Still a long way to cover the parameter space down to the neutrino floor
WIMP detectors are turning multi-functional
The tighter the WIMP constraints, the more attractive become alternative DM candidates: axions, dark photons, …
Next decade will not be boring…
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Three ways:
K. Valerius, Nu2016:
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Three ways: 1. decay and electron capture
KATRIN: first tritium data 2017
Project-8: prototyping
Electron capture (ECHo, Holmes, NuMECS):
- R&D
- Now on the 10 eV level
- Sub-eV sensitivity envisaged for early 2020s (see talk of Loredana Gastaldo)
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Three ways: 2. 0 decay
Only way to prove Majorana nature!
The (realistic?) goal: cover IH branch
Status June 2016:
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Three ways: 2. 0 decay
Current experiments and R&D programmes
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Three ways: 2. 0 decay
The future: example KamLAND-Zen (Junpei Shirai, Nu2016)
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Three ways: 2. 0 decay
Other projects
CUORE: start operation end of 2016 5-year sensitivity 90% C.L. 50-130 meV
CUORE CUPID (Cuore with particle ID, enrich‘d) goal: 6-20 meV
Gerda (plans 200 kg) + Majorana common project (?)
nEXO 60-170 meV
nEXO with Barium tagging 30-100 meV
Conclusion: IH region will be entered, but it is not clear to which extend one can fully cover it.
Demonstration of NH with oscillation experiments would considerable reduce the remaining parameter space (which would be along the nearly degenerated NH corridor).
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Three ways: 2. 0 decay
Other projects
CUORE: start operation end of 2016 5-year sensitivity 90% C.L. 50-130 meV
CUORE CUPID (Cuore with particle ID, enrich‘d) goal: 6-20 meV
Gerda (plans 200 kg) + Majorana common project (?)
nEXO 60-170 meV
nEXO with Barium tagging 30-100 meV
Conclusion: IH region will be entered, but it is not clear to which extend one can fully cover it.
Demonstration of NH with oscillation experiments would considerable reduce the remaining parameter space which would be along the nearly-degenerated NH corridor.
Anyway, 0 decay is
too fundamental to be
given up too early!
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Three ways: 2. 0 decay
Other projects
CUORE: start operation end of 2016 5-year sensitivity 90% C.L. 50-130 meV
CUORE CUPID (Cuore with particle ID, enrich‘d) goal: 6-20 meV
Gerda (plans 200 kg) + Majorana common project (?)
nEXO 60-170 meV
nEXO with Barium tagging 30-100 meV
Conclusion: IH region will be entered, but it is not clear to which extend one can fully cover it.
Demonstration of NH with oscillation experiments would considerable reduce the remaining parameter space which would be along the nearly-degenerated NH corridor.
- Nuclear Matrix elements:
theory, auxiliary measurements
- gA-dependence on nuclear effects
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A. Marrone, Nu2016 London
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A. Marrone, Nu2016 London
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Neutrino mass hierarchy
Time schedules have to be taken with a grain of salt! NMH sensitivity of ORCA/PINGU depends on the octant of 23 (lower values for 1st octant), that of JUNO on energy resolution (lower values for 3.5%, upper for 3%), that for DUNE on the CP value. Compilation by p.Coyle, based on the original one of Blennow et al.
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Neutrino mass hierarchy
Time schedules have to be taken with a grain of salt! NMH sensitivity of ORCA/PINGU depends on the octant of 23 (lower values for 1st octant), that of JUNO on energy resolution (lower values for 3.5%, upper for 3%), that for DUNE on the CP value. Compilation by p.Coyle, based on the original one of Blennow et al.
Envisaged start operation of full detector, (Nu2016)
JUNO: 2020 ORCA: 2020 (?) PINGU: 2022 (??) INO: 202? Hyper-K: 2026 (?)
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„Dedicated NMH experiments“
When JUNO, ORCA, PINGU, INO, … come into operation, the question of NMH will largely be solved (much more data from NOvA, better understanding of systematics and more statistics from all experiments)
W.r.t. NMH, all these new experiments then may have just a „confirmation character“
New focus much broader:
precision measurement of oscillation parameters
- test unitarity of PSNM matrix
- hints for a fourth neutrino?
Non-standard interactions?
Supernova detection,
Solar- and geo-neutrinos, proton decay, …
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Example: PINGU and ORCA physics
Precision measurement of 23 and m322 (including
octant of 23 ) over a larger energy range than accel. experiments
Determine (confirm) NMH with 3 (median) after 3-4 years
Test unitarity of PNMS matrix using appearance of
Search for sterile neutrinos, non-standard interactions
Earth tomography
Annihilation of low-mass DM in the Sun
Detection of MeV neutrinos from SN bursts (PINGU)
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Summary oscillation physics
Need broad approach: different methods, different systematics, not clear how fast each of the detectors will meet is planned performance
Need auxiliary experiments (x sections, ..) and MC (atm. flux & spectrum, GENIE,…)
ORCA, PINGU, JUNO, Hyper-K, DUNE may turn out to be a „LEP of neutrino physics“ -- i.e. just confirming the standard model with high precision …
… or find something beyond the standard model, like sterile neutrinos or non-standard interactions.
With or without surprises: the next 10-15 years will be techno-logically extremely challenging and physicswise very interesting
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Sterile neutrinos
„No oscillation“ excluded at ~6 ?? (talk of C. Giunti)
Next 5 years: Expect a wealth of new data from small and medium-scale experiments: reactor & source expts, plus new atm. & LBL results, plus cosmology (talk of A. Melchiori)
What will they provide? Many 2 results, partially contradicting? Clear oscill. pattern in SOX? What could SBL experiment at Fermilab give?
P. Huber (this conference): Hints to sterile neutrinos are still the best indication for BSM physics, „but we seem to be unable to mount a program to address those anomalies.“
What would that be if we would
know the correct systematics?
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Solar Neutrinos
Will be measured with future detectors JUNO, Hyper-K, DUNE
JUNO: shallow, high background (no chance for from CNO cycle)
Hyper-K, DUNE: only 8B, 10 times less statistics than LSc detector of 50 kt (like former LENA)
Need a deep LSc detector on the 20-50 kt scale for
high statistics solar neutrinos
CNO neutrinos (metallicity problem!)
geo-neutrinos (ONLY LSc)
best signal/BG for diffuse SN neutrinos
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Solar and geo-neutrinos
Will be measured with future detectors JUNO, Hyper-K, DUNE
JUNO: shallow, high background (no chance for from CNO cycle)
Hyper-K, DUNE: only 8B, 10 times less statistics than LSc detector of 50 kt (like former LENA)
Need a deep LSc detector on the 20-50 kt scale for
high statistics solar neutrinos
CNO neutrinos (metallicity problem!)
geo-neutrinos (ONLY LSc)
best signal/BG for diffuse SN neutrinos
ceterum
censeo:
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Solar and geo-neutrinos
Will be measured with future detectors JUNO, Hyper-K, DUNE
JUNO: shallow, high background (no chance for from CNO cycle)
Hyper-K, DUNE: only 8B, 10 times less statistics than LSc detector of 50 kt (like former LENA)
Need a deep LSc detector on the 20-50 kt scale for
high statistics solar neutrinos
CNO neutrinos (metallicity problem!)
geo-neutrinos (ONLY LSc)
best signal/BG for diffuse SN neutrinos
ceterum
censeo:
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Geo-neutrinos
Want to understand the heat balance of Earth, and the composition of mantel & crust
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Geo-neutrinos
Want to understand the heat balance of Earth, and the composition of mantel & crust
Sometime: revival of HANO-HANO? (John Learned)
Some even later time: neutrino geology à la A. Drukier (see his London talk)?
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Charged
Cosmic
Rays
Gamma
Rays
Neutrinos
Sources of
Cosmic Rays
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The questions: Astrophysics & Cosmology
Cosmic particle acceleration and propagation - How and where are cosmic particles accelerated? - How do they propagate – within and outside the Galaxy? - What is their impact on the environment
(Galaxy formation, Earth system, biology, …)?
Probing extreme environments - Processes close to black holes and neutron stars - How do supernovae explode, role of neutrinos? - Processes in relativistic jets, winds and radio lobes - Understanding cosmic magnetic fields
Cosmic Evolution
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The questions: Particle Physics & Basic Laws
Standard Model - Understanding forward physics at LHC - pp and cross sections at highest energies - Charm production at highest energies - Neutrino oscillations , mass hierarchy (ORCA & PINGU) - …
Beyond the Standard Model & Basic Laws - Dark matter: SUSY WIMPs, Q-balls, magnetic monopoles … - Violation of Lorentz invariance - New particle physics at extreme energies - Sterile neutrinos - …
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Cut-off at highest energies confirmed, but … … is that the GZK cut-off? … or do the sources just run out of power?
190 000 events
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Cut-off: how to undestand ist nature
Need a better mass determination to check how the cut-off depends on particle mass
Need more statistics and first point sources to check how the cut-off depends on distance
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Can we do astronomy?
Need protons - heavy nuclei are too strongly deflected in cosmic magnetic fields
Presently derived proton contribution seems disappointingly small (~10%)
Is that the final word? (Could well be 30% !!)
Need better mass determination and more statistics above 3 1019 eV!
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Point Sources: Tantalizing hot spot at TA
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Auger and TA upgrades
AugerPrime
improve measurement of mass composition !!
no area extension
upgrading water tanks with scintillators on top
raising Fluorescence Detector duty cycle by 10-15% more hybrid events
Telescope Array upgrade
more statistics for hot spot !!
increasing array from 700 km² to 2800 km² (approved in Japan April 2015)
2 new Fluorescence detectors (proposal submitted in USA)
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Ultrahigh-energy CR physics is at a turning point !
If proton component < 5-10%: Next-generation detectors would fail by definition to identify point sources. That would very likely herald the end of the race towards astronomy with charged cosmic rays.
If the proton component would be much higher than the presently estimated 10%, or if even point sources could be identified, the path towards cosmic ray astronomy would be open.
AugerPrime extremely important for the future of the full field: Guidance, whether CR physics at highest energies should be continued or whether it will have reached its natural end.
In the most positive case, AugerPrime or TA would detect first point sources and break through a long-standing wall.
A larger detector could later study these sources in more detail.
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The main players
At present
Fermi Satellite
MAGIC, H.E.S.S., VERITAS IACT
HAWC wide angle
Future
CTA (Spain, Chile) IACT
HAWC South wide angle
LHHASO (Tibet), TAIGA (Siberia) hybrid
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The Sky at TeV-Energies
RX J1713.7-3946
H.E.S.S.-Scan of the galactic plane
Moon
0.5°
1989: 1 Source 1996: 3 Sources 2005: 80 Sources 2015: 150 Sources
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It‘s going to be like classical astronomy !
RX J1713.7-3946
Moon
0.5°
1989: 1 Source 1996: 3 Sources 2005: 80 Sources 2015: 150 Sources
Periodicities/Variability: from ms to years
Energy-coverage: over several decades
Source position: on the arc-second level
Morphology : few arc-min level (even energy-dependent!)
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Physics beyond the Standard Model
Indirect Dark Matter Search
Test of Lorenz Invariance
…
Cosmology
Measurement of EBL
VHE Standard Candles dark energy ?
It‘s going to be like classical astronomy !
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CTA will open a new era in gamma-ray astronomy
It will be flanked by wide-angle arrays like HAWC (TeV range) and LHAASO, TAIGA (reaching into PeV range)
Follow-up of Fermi satellite is still open, but good chances that mission will be extended
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The devices
Baikal
Antares
AMANDA IceCube
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Cosmic neutrinos discovered new window opened, landscape still uncharted (no point sources yet!)
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Still Open:
Exact Spectrum
Flavor content (n-decay disfavored)
Extragalactic? Galactic?
Individual sources? Diffuse from CR interactions? (see talk of F. Villante)
See talk of J. Kiryluk
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Chance to see steady point sources with IceCube becomes smaller and smaller, although certain sources/source classes seem to be in reach
Focus on transient sources!
Importance of multi-messenger alert programs!
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IceCube real-time program (Antares similar)
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To resolve open questions, we need asap:
More data with IceCube, refined analysis methods
Detectors with different systematics
Detectors with better pointing
Detectors on the Northern hemisphere with better TeV view to central parts of the Galaxy
under construction !
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The future
GVD
IceCube Gen2
HEA +PINGU + ….
KM3NeT
(ARCA +
ORCA)
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KM3NeT Original idea: 6 blocks at 3 locations: 6 x 0.6 km³
France
Greece
Italy
115 strings per block 18 DOMs per string 31 PMTs per DOM
6 blocks are still part of „KM3NeT Phase 3“, which, however, cannot be associated yet to definite time line.
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Phase 1 (2017):
France
Italy
7 strings, small spacing - Feasibility test for ORCA
24 strings, 124 m spacing - Demonstrate principle - Physics on the 3-4 times Antares scale
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ORCA
Phase 2.0: ORCA and ARCA (2020?)
France
Italy ARCA
ORCA: determination of the Neutrino Mass Hierarchy (NMH)
ARCA: IceCube physics, but with better angular resolution and from the Northern hemisphere
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KM3NeT 2.0: diffuse fluxes
Sensitivity to IceCube HESE signal
… plus first galactic sources ?
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GVD: Phase 1 (2020) and Phase 2 (~2025)
GVD-1: 0.4 km³
12 clusters with 8 strings each
Cluster diameter 120 m
Height 520 m
36 OMs per string
GVD-2: ~ 1.5 km³
2015 still 80 m
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GVD: Phase 1 (2020) and Phase 2 (~2025)
GVD-1: 0.4 km³
12 clusters with 8 strings each
Cluster diameter 120 m
Height 520 m
36 OMs per string
GVD-2: ~ 1.5 km³
2015 still 80 m
Check IceCube results
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GVD: from NT200 to GVD clusters
DUBNA cluster with 80 m diameter working since April 2015, now 120 m
A down-going muon in the DUBNA cluster
NT200
2015
since April 2016
2015 still 80 m
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The IceCube Gen2 facility: conceptual drawing
• PINGU : low energy, mass hierarchy
• High Energy Array (HEA) - 100 TeV- PeV scale neutrinos
• Cosmic Ray Array -
veto array for HEA - + cosmic ray physics
• Radio Array (RA)
- > 100 PeV - BZ (GZK) neutrinos
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Global timeline (optimist‘s view!!)
14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31
KM3NeT-1 constr.
ARCA construction
GVD 1.cluster
GVD-1 construction
Relevant physics
Relevant physics
ORCA constr
IceCube: more and better data.Relevant physics all the time
PINGU
Relevant physics
2 x 0.6 km³
+ 1 x 0.4 km³
5-10 km³ Gen2: R&D + preparatory phase
Construction of surface and radio detectors could well start earlier
Gen2 construction2
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Global timeline (optimist‘s view)
14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31
KM3NeT-1 constr.
ARCA construction
GVD 1.cluster
GVD-1 construction
Relevant physics
Relevant physics
ORCA constr
IceCube: more and better data.Relevant physics all the time
PINGU
Relevant physics
5-10 km³ Gen2: R&D + preparatory phase
Construction of surface and radio detectors could well start earlier
Gen2 construction2
ARCA and GVD : North ARCA and GVD: Water
GVD: Shallow ARCA: Deep
GVD: opt. to 10-30 TeV ARCA: opt. to 1-10 TeV Gen2: South, ice, deep, opt to 100 TeV
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Global timeline (optimist‘s view!!)
14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31
KM3NeT-1 constr.
ARCA construction
GVD 1.cluster
GVD-1 construction
Relevant physics
Relevant physics
ORCA constr
IceCube: more and better data.Relevant physics all the time
PINGU
Relevant physics
2 x 0.6 km³
+ 1 x 0.4 km³
5-10 km³ Gen2: R&D + preparatory phase
Construction of surface and radio detectors could well start earlier
Gen2 construction2
towards full
KM3NeT/ARCA
(3-4 km³)
towards GVD-2
(1.5 km³)
5 km³
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Summary HE neutrinos
Cosmic high-energy discovered !
Opened new window, but landscape not yet charted: no point sources identified up to now
Remaining uncertainties on spectrum and flavor composition
Individual sources: transient sources give best chance, steady sources tantalizingly close ( ARCA/GVD).
Need larger detectors, also with different systematics and at the Northern hemisphere.
Next logical step: ARCA + GVDPhase1
~2030: A Global Neutrino Observatory (KM3NeT-GVD-IceCube/Gen2) full sky with > 5 km³
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Summary HE neutrinos
Cosmic high-energy discovered !
Opened new window, but landscape not yet charted: no point sources identified up to now
Remaining uncertainties on spectrum and flavor composition
Individual sources: transient sources give best chance, steady sources tantalizingly close ( ARCA/GVD).
Need larger detectors, also with different systematics and at the Northern hemisphere.
Next logical step: ARCA + GVDPhase1
~2030: A Global Neutrino Observatory (KM3NeT-GVD-IceCube/Gen2) full sky with > 5 km³
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Three attempts to sketch the future …
2007 2008 2011
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Example: -less double beta decay
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Looking back to 2007 plans from 2012
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Looking back to 2007 plans from 2012
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Looking back to 2007 plans from 2012
See C.S.: Seven Years of Astroparticle Roadmapping:
Progress, Reality Check and Lessons ,
ASPERA Final Meeting, Brussels, 2012
https://www-zeuthen.desy.de/~csspier/
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Looking back to 2007 plans from 2016
7
?
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Astroparticle funding profile seen from 2008
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In most cases expectations have been much to optimistic.
WIMP DM, oscillations: moved faster than expected.
Over the last decade, we have made a lot of important steps (13, pep and pp with Borexino, geo-nu, cosmic neutrinos, HE cut-off with Auger, huge number of gamma sources, gravitational waves, cosmology results, …)
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In most cases expectations have been much to optimistic.
WIMP DM, oscillations: moved faster than expected.
Over the last decade, we have made a lot of important steps (13, pep and pp with Borexino, geo-nu, cosmic neutrinos, HE cut-off with Auger, huge number of gamma sources, gravitational waves, cosmology results, …)
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1.9K neutrinos with PTOLEMY ?
(added after hearing the talk of Alfredo Cocco)
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