Project SIMPLE for Dark matter search FRANCE G. Waysand (CNRS) D. Limagne (CNRS) PORTUGAL T. A....
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Transcript of Project SIMPLE for Dark matter search FRANCE G. Waysand (CNRS) D. Limagne (CNRS) PORTUGAL T. A....
![Page 1: Project SIMPLE for Dark matter search FRANCE G. Waysand (CNRS) D. Limagne (CNRS) PORTUGAL T. A. Girard (CFN) T. Morlat (CFN) F. Giuliani (CFN) M. Felizardo.](https://reader035.fdocuments.us/reader035/viewer/2022081603/5697c02d1a28abf838cd9700/html5/thumbnails/1.jpg)
Project SIMPLE for Dark matter search
FRANCE
G. Waysand (CNRS)
D. Limagne (CNRS)
PORTUGAL
T. A. Girard (CFN)
T. Morlat (CFN)
F. Giuliani (CFN)
M. Felizardo (CFN/ITN)
A. R. Ramos (CFN/ITN)
J. G. Marques (CFN/ITN)
USAH. S. Miley (PNNL)
J. I. Collar (Chicago)
The Group
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The search for Dark Matter
Dark Energy : 67 6 %
supernovae observations
Cold Dark Matter29 4 %inference from galaxy dynamics
baryons : 4 1 %direct observation,
inference from
elemental abundances NBBlm
m
1
~70%~30%
~1% ~4%~25%
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Dark Mater candidate: Neutralino
→ Lagrangian : elastic scattering of a generic WIMP (spin ½) on nucleon :
J
JSaSaG nnppAfA
1)(
32 222
2222 )(4
ANgZgG npAFA
Spin dependent channel
Spin INdependent channel
Target = heavy atom
Target = ?
)()(24 nngppgnnappaGL npnpF
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ppAA
pA
Ap CC /
12
2limlim
pnAA
nA
An CC /
12
2limlim
Spin dependent channel
→ Cross section (limite) would reach a maximum, depending on (Ref. Tovey et al, PLB 488 (2000) 17):
*Proton sensitive: (WIMP independent model)
*Neutron sensitive: (WIMP independent model)
2,,
, 13/4/
npnp
npA S
J
JCC
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To detect the beast
Requirements:
→ Cross section max in the spin dependent :
→ Cross section max in the spin Independent: Heavy atom Target (Xe, I…)
→ Detector with low recoil energy 1-100 KeV
→ Problem of background for direct detection: Low rate of event < 1 event/kgd: Shielding for the background (µ, e-, γ…)
Fluorine
(proton sensitive)
Xe, Ge
(neutron sensitive)
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The Superheated Droplet Detector (SDD)
→ Have low critical energy (e.g. Ec=8keV at {T=9ºC, p=2bar} for C2ClF5)
→ High Fluorine content (C2ClF5, C3F8, C4F8, C4F10...)
→ The gradient condition: blind to backgrounds(, , …) only neutron & alpha
( )
( )
c
c
c
E E
E TdE
dx L T
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keVEF 1312
( )
( )
c
c
c
E E
E TdE
dx L T
T(C)
C2ClF5 (R115)
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Description of the SIMPLE SDD
→ Refrigerant : C2ClF5 (R115) under droplets (<r>~ 30 μm)
→ Matrix (food products):
• Gelatine (1.8%) : pig skin and not bones: low content in Ca & K• Bidistilled water (16%)• Polyvinylpyrrolidone PVP (3.6%) : to decrease solubility of freon • Glycerine (78.6%) : matching density, high mouillability (no spurious
event on the walls)
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Purification of the matrix
Purification of food products: well known in the food industry.
Purification of the ingredients with M+ MP500 Lewatit resin for metal extraction (anionic exchange resins).
Filtration system with acropack filter 0,2 microm.
→ radiocontamination < 0.5events/(kgfreon)/d
Purification by resins of glycerine, gelatine & PVP Filtration of the gelatine+PVP
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Suspension fabrication
10g
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The shielding for SIMPLE
Faraday cage
EM noise
LSBB, Rustrel
500m of montain = 1500 m.w.e ~ 2 km of tunnel
Neutron flux from rock: 4 10-5 n/cm2.s
Ambiant muon flux ~ 0.5 10-3 /m2.s
Radon ~ 28 Bq/m3
Hz
fT2
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Dark Matter : the set up for SIMPLE
Installation of the SDDs inside the pool
Temperature T=8.9ºC
3.0
bc
b
TT
TTs
For s>0.5 then sensitive to X-rays, α-rays and cosmics ray muons.
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Results of 0.42 kgd exposure(42 g @ 10 day)
Main background:
*Leaks from the cap ~ 30/kgd
*Neutrons < 3/kgd
*Alpha < 0.5/kgd
*radon < 1/kgd
pA
p
A
pA
Ap C
C2
2limlim
From experiment
Ref: T. A. Girard et al, PLB 621 (2005) 233
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22
2
lim)lim( 24 pFA
n
n
Ap
p
G
aa
22nnpP aaaa
Ref: T. A. Girard et al, PLB 621 (2005) 233
npA
np
A
npA
Anp C
C,
,
2
2,limlim
,
lim2
AnA
pAA
+
npAAF
npA CG ,22, 4
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Near futur: Tasks for nov 2006 (3kgd)
Improvements to do, from the last experiment (0.42kgd): short exposure (10d) : increase the lifetime of the SDD,
how?
Leak : resolve the leak problem from the caps : change the “Mc Gyver cap” into something more professional
Acoustic, reduce the electronic background noise
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Increase the lifetime, how ?
Droplet: by recompression
Interface droplet-matrix : surfactant as shielding against Oswald ripening effect droplet too small+ possibility of foam = loss of efficiency
Matrix: additives - increase the fracture energy ? Delayed the formation of fractures
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Fracture experiment
Refs: Y. Tanaka et al, Eur. J. Phys. E 3 (2000) 395
T. Morlat et al, NIMA 560 (2006) 339
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Result with additives
PEG: no because of crystallisation of the glycerine
Agarose: increase resistance to fracture + Shift the Tsol-gel
T. Morlat et al, NIMA 560 (2006) 339
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Leaks from the cap ?
BEFORENOT ANYMORE !!!
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The solution
AFTER
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The sound acquisition for nov 2006
0.022 0.023 0.024 0.025 0.026 0.027 0.028 0.029 0.03 0.031-1.5
-1
-0.5
0
0.5
1
(s)
(V)
Test in Rustrel : background noise down to 0.95mV
Piezoelectric Transducer
Preamplifier Data Acquisition
BEFORE
AFTER
Noise: 100-200mV
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What we expect for the 3kgd (nov. 2006)
Agarose to increase the time of exposure (40 days)
New cap: no leaks in 3 weeks under presure
New electronic with low background noise
7 “fresh SDDs” (~80 g), fabrication in Rustrel (no transportation)
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New limit projected
-10
-5
0
5
10
-8 -6 -4 -2 0 2 4 6 8
an
NAIAD(3879 kgd)
-10
-5
0
5
10
-8 -6 -4 -2 0 2 4 6 8
CDMS(19kgd)
-10
-5
0
5
10
-8 -6 -4 -2 0 2 4 6 8
EDELWEISS(62 kgd)
-10
-5
0
5
10
-8 -6 -4 -2 0 2 4 6 8
SIMPLE(0.42 kgd)
-10
-5
0
5
10
-8 -6 -4 -2 0 2 4 6 8
SIMPLE (3 kgd)
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Heavy project: Cf3I (ρ=2g.cm-3)for Spin-INdependent sector
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The impact of a CF3I SDD
222
)()( 4)(
:
pFASI
n
n
ASIp
p
G
gg
NZ
:NZ
0Z
N
g
g
n
p
![Page 27: Project SIMPLE for Dark matter search FRANCE G. Waysand (CNRS) D. Limagne (CNRS) PORTUGAL T. A. Girard (CFN) T. Morlat (CFN) F. Giuliani (CFN) M. Felizardo.](https://reader035.fdocuments.us/reader035/viewer/2022081603/5697c02d1a28abf838cd9700/html5/thumbnails/27.jpg)
CF3I feasible ?
The non matching density: few preliminary calculs:
00
pff visc
0)(3
46 3
0 grt
Dr b
D
gtr b
9
)(2 02
11.13.0 smkg
The following composition gives ηexp=0.17 kg.m-1.s-1
(measured by a viscosimeter Cannon Fenske routine 1600-6400):
gelatine (1.71%)+ PVP (4.18%)+ biH2O (15.48%)+ agarose (0.46%) + glycerine (78.16%).
ρ0, η
ρb D
2
3326
10.59
)10.3.110.2)(6060(81.9)10.35(2
x
xAN
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CF3I : temperamental
High solubility under presure : S=0.5g/kg H2O/bar
High solubility at T<Tambiant : the droplets get dissolved in high quantity No stockage at T<0°C: clathrates of hydrates
Day 0 Day 1
1 night at 7ºC