Strongly interacting dark matter doesn’t explain the DAMA ... · Composite dark matter Signifcant...
Transcript of Strongly interacting dark matter doesn’t explain the DAMA ... · Composite dark matter Signifcant...
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Strongly interacting dark Strongly interacting dark matter doesn’t explain the matter doesn’t explain the
DAMA signalDAMA signal
Maxim Laletinin collaboration with J.R. Cudell
Star InstituteUniversité de Liège
8th COSPA Meeting10/11/2017
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Maxim Laletin (ULiege) 2
Direct detection puzzle
J. Cooley, Phys.Dark Univ. 4, 2014
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Maxim Laletin (ULiege) 3
DAMA Experiment
Annual modulation of the signal
9.3 σ C.L.9.3 σ C.L.
DAMA/LIBRA250 kg NaI(Tl)
1.33 ton*yr~ 103 counts per day
LNGS, Gran SassoLNGS, Gran Sasso
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Explanations● Background neutrons● Muon-induced neutrons● Neutrino-induced neutrons
However, these explanations don’t workHowever, these explanations don’t work
● “No role for neutrons, muons and solar neutrinos in the DAMA annual modulation results”, Bernabei et al., Eur.Phys.J., 2014
● “Comment on "Fitting the annual modulation in DAMA with neutrons from muons and neutrinos''”, Barbeau et al., Phys.Rev.Lett., 2014
● “Can muon-induced backgrounds explain the DAMA data?”, Klinger and Kudryavtsev, J.Phys.Conf.Ser., 2016
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Any room for dark matter?
● Resonant Dark Matter, Yang Bai, Patrick J. Fox (Fermilab) JHEP 0911 (2009) 052● Mirror dark matter interpretations of the DAMA, CoGeNT and CRESST-II
data, R. Foot Phys.Rev. D86, 2012● Inelastic dark matter with spin-dependent couplings to protons and
large modulation fractions in DAMA, Stefano Scopel, Kook-Hyun Yoon, JCAP 1602, 2016
Essentially, all these models assume that DAMA detector is somehow “special”,
so that there is no signal in other detectors
Yes, but not for simple WIMPs
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Maxim Laletin (ULiege) 6
Composite dark matter● Signifcant elastic cross sections (~ 10-26 cm2)● Tiny recoil energies (slow down before the
detector)● Produce the signal due to inelastic processes on
some special component of DAMA
● Composite Dark Matter and Puzzles of Dark Matter Searches, M. Khlopov, A. Mayorov, E. Soldatov, Int.J.Mod.Phys. D19 (2010)
● Milli-interacting dark matter, Q. Wallemacq, Phys. Rev. D 88 (2013)● Dark antiatoms explain DAMA, J.R. Cudell, Q. Wallemacq, JCAP 2015
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Slowdown in the ground
Thermalization depth
The recoil energy on nuclei is tiny
DM looses energy after multiple collisions on terrestrial nuclei (mainly Si and O) and acquires the surrounding temperature (thermalizes)
Mean free path length
Number density of the medium (rock)
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Diurnal modulation
One expects diurnal modulation for
SIMPs
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Diurnal modulation
DAMA data Expected for WIMPs
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Diurnal modulation
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Propagation in the groundThe propagation can be described as diffusion with a drift due to gravity
Particle number density Source function
Difusion coefcient Drift velocity(related to the difusion coefcient
via Einstein relation)
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“Flat-Earth” approximation
All the points on the surface are equal,so the only dimension that matters is Z
1D difusion equation
Slow difusion only takes place below the surfaceAbove the surface the difusion coefcient is 0
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Density in the detectorGeneral solution of the diffusion equation in the unbounded space
with the Green’s function Depth distribution
Drift factor“Mirror” sink term
describes the leakageof particles into the air
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Velocity distributionDark matter thermal velocity distribution
Can be translated intothe depth distribution
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Constraints
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Let’s study a particular set of parameters,M = 1 TeV
σ = 10-26 cm2
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Density inside the detector
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Density inside the detector
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Reconstructing the signalInelastic cross section -
additional parameter that we use to normalize the signal
~ 10-3
The rate is than averaged over every day and the yearly average of the signal(background) is subtracted
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Annual modulation
~ 100 days shift
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Diurnal modulation
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Other parameter valuesM = 100 GeV
σ = 10-26 cm2
Annual modulation
Diurnal modulation
~ 90 days shift
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Other parameter valuesM = 100 TeV
σ = 6 10-24 cm2
Annual modulation
Diurnal modulation
~ 60 days shift
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Realistic surface
DAMA is here Gran Sasso mountain
(Google Earth)
A more detailed picture includes a complex realistic surface
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Realistic surfacePreliminaryPreliminary
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Conclusions● The effects of propagation rule out some dark matter
models explaining the DAMA results with strongly interacting massive particles;
● Both annual and diurnal modulations cannot be reproduced;● The effects of “bouncing” particles needs to be studied,
however a signifcant improvement of the ft is not expected; ● DAMA results will be tested in a series of experiments:
ANAIS, COSINE-100, SABRE, COSINUS and so on.
Thank you for attention!
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Backup
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Constraints on SIMPs
Erickcek+, Phys. Rev. D 2007, 0704.0794
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XENON1T (2017)
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Signal comparison
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WIMP Signalaround annual
maximum
SIMP Signalaround annual
maximum
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Signal reconstruction
Averaged over each day(annual modulation)or each hour of every day during the year
(diurnal modulation)
Averaged over the year
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Dark antiatoms● Dark antiproton and dark positron● Dark photon can “convert” to ordinary photon● Interacts strongly with “our world”● Couple to heavy elements (Thalium in DAMA)● Emit X-rays, which produce electron recoils
J.R. Cudell, Q. Wallemacq, JCAP 2015
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“Bouncing” SIMPs
However, we do not expect this to drastically change our conclusion