152 research outputs found
MIMAC-He3 : MIcro-tpc MAtrix of Chambers of He3
The project of a micro-TPC matrix of chambers of He3 for direct detection of
non-baryonic dark matter is outlined. The privileged properties of He3 are
highlighted. The double detection (ionization - projection of tracks) will
assure the electron-recoil discrimination. The complementarity of MIMAC-He3 for
supersymmetric dark matter search with respect to other experiments is
illustrated. The modular character of the detector allows to have different
gases to get A-dependence. The pressure degreee of freedom gives the
possibility to work at high and low pressure. The low pressure regime gives the
possibility to get the directionality of the tracks. The first measurements of
ionization at very few keVs for He3 in He4 gas are described
MIMAC : Detection of low energy recoils for Dark Matter search
The MIMAC project is based on a matrix of Micro Time Projection Chambers
(micro-TPC) for Dark Matter search, filled with He3 or CF4 and using ionization
and tracks. The first measurement of the energy resolution of this micro-TPC is
presented as well as its low thresholdComment: Dark Energy and Dark Matter conference, Lyon : France (2008
Intérêt de l’acide tranéxamique dans la maitrise des saignements peropératoires chez le chien
Durant une chirurgie, les saignements mettent en péril le pronostic vital du patient. Il est donc nécessaire de les maitriser. Cette étude menée en double aveugle chez des chiennes admises pour mammectomie au Centre Hospitalier Universitaire Vétérinaire de Toulouse a pour but de démontrer l’efficacité de l’acide tranéxamique, un inhibiteur de la fibrinolyse, sur la gestion des saignements peropératoires. L’acide tranexamique diminue de manière significative les saignements pendant les chirurgies chez la chienne sans modifier les paramètres sanguins de l’animal. C’est alors une molécule d’avenir en anesthésie vétérinaire du fait de son efficacité, de l’absence d’effets secondaires notoires et de son faible coût
Track reconstruction with MIMAC
Directional detection of Dark Matter is a promising search strategy. However,
to perform such kind of detection, the recoiling tracks have to be accurately
reconstructed: direction, sense and position in the detector volume. In order
to optimize the track reconstruction and to fully exploit the data from the
MIMAC detector, we developed a likelihood method dedicated to the track
reconstruction. This likelihood approach requires a full simulation of track
measurements with MIMAC in order to compare real tracks to simulated ones.
Finally, we found that the MIMAC detector should have the required performance
to perform a competitive directional detection of Dark Matter.Comment: 9 pages, 6 figures; Proceedings of the 3rd International conference
on Directional Detection of Dark Matter (CYGNUS 2011), Aussois, France, 8-10
June 201
Dark matter directional detection with MIMAC
MiMac is a project of micro-TPC matrix of gaseous (He3, CF4) chambers for
direct detection of non-baryonic dark matter. Measurement of both track and
ionization energy will allow the electron-recoil discrimination, while access
to the directionnality of the tracks will open a unique way to distinguish a
geniune WIMP signal from any background. First reconstructed tracks of 5.9 keV
electrons are presented as a proof of concept.Comment: 4 pages, proc. of the 44th Rencontres De Moriond: Electroweak
Interactions And Unified Theories, 7-14 Mar 2009, La Thuile, Ital
MIMAC : A Micro-TPC Matrix of Chambers for direct detection of Wimps
The project of a micro-TPC matrix of chambers of He3 and CF4 for direct
detection of non-baryonic dark matter is outlined. The privileged properties of
He3 are highlighted. The double detection (ionization - projection of tracks)
will assure the electron-recoil discrimination. The complementarity of MIMAC
for supersymmetric dark matter search with respect to other experiments is
illustrated.The modular character of the detector allows to have different
gases to get A-dependence. The pressure degreee of freedom gives the
possibility to work at high and low pressures. The low pressure regime gives
the possibility to get the directionality of the tracks. The first measurements
of ionization at very few keVs for He3 in CF4 gas are described.Comment: to be published in the Proceedings of the Third Symposium on Large
TPCs for Low Energy Rare Event Detection, 11 - 12 December 2006, Pari
In situ measurement of the electron drift velocity for upcoming directional Dark Matter detectors
Three-dimensional track reconstruction is a key issue for directional Dark
Matter detection and it requires a precise knowledge of the electron drift
velocity. Magboltz simulations are known to give a good evaluation of this
parameter. However, large TPC operated underground on long time scale may be
characterized by an effective electron drift velocity that may differ from the
value evaluated by simulation. In situ measurement of this key parameter is
hence needed as it is a way to avoid bias in the 3D track reconstruction. We
present a dedicated method for the measurement of the electron drift velocity
with the MIMAC detector. It is tested on two gas mixtures: CF4 and CF4 + CHF3.
The latter has been chosen for the MIMAC detector as we expect that adding CHF3
to pure CF4 will lower the electron drift velocity. This is a key point for
directional Dark Matter as the track sampling along the drift field will be
improved while keeping almost the same Fluorine content of the gas mixture. We
show that the drift velocity at 50 mbar is reduced by a factor of about 5 when
adding 30% of CHF3.Comment: 19 pages, 14 figures. Minor corrections, matches published version in
JINS
Measurement of the electron drift velocity for directional dark matter detectors
Three-dimensional track reconstruction is a key issue for directional Dark
Matter detection. It requires a precise knowledge of the electron drift
velocity. Magboltz simulations are known to give a good evaluation of this
parameter. However, large TPC operated underground on long time scale may be
characterized by an effective electron drift velocity that may differ from the
value evaluated by simulation. In situ measurement of this key parameter is
hence a way to avoid bias in the 3D track reconstruction. We present a
dedicated method for the measurement of the electron drift velocity with the
MIMAC detector. It is tested on two gas mixtures : and . We also show that adding allows us to lower the
electron drift velocity while keeping almost the same Fluorine content of the
gas mixture.Comment: Proceedings of the 4th international conference on Directional
Detection of Dark Matter (CYGNUS 2013), 10-12 June 2013, Toyama, Japa
Development of a front end ASIC for Dark Matter directional detection with MIMAC
A front end ASIC (BiCMOS-SiGe 0.35 \mum) has been developed within the
framework of the MIMAC detector project, which aims at directional detection of
non-baryonic Dark Matter. This search strategy requires 3D reconstruction of
low energy (a few keV) tracks with a gaseous \muTPC. The development of this
front end ASIC is a key point of the project, allowing the 3D track
reconstruction. Each ASIC monitors 16 strips of pixels with charge
preamplifiers and their time over threshold is provided in real time by current
discriminators via two serializing LVDS links working at 320 MHz. The charge is
summed over the 16 strips and provided via a shaper. These specifications have
been chosen in order to build an auto triggered electronics. An acquisition
board and the related software were developed in order to validate this
methodology on a prototype chamber. The prototype detector presents an anode
where 2 x 96 strips of pixels are monitored.Comment: 12 pages, 10 figure
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