论文信息 - MPGD simulation in negative-ion gas for direction-sensitive dark matter searches

MPGD simulation in negative-ion gas for direction-sensitive dark matter searches

Negative-ion time projection chambers (NITPCs) provide the absolute z-position from the arrival-times’ difference of several species of negative-ions. This is a strong background reduction method for rare event searches, such as direct dark mater searches. The characteristics of micro pattern gaseous detectors (MPGDs) in negative-ion gas were studied by both experiments and simulations to develop an NITPC for dark matter search experiments. An MPGD simulation method for the negative-ion gas with Garfield++, which has not yet been established, was developed. We present herein the MPGD simulation results in negative-ion gas, SF6 gas, together with the experimental results, such as gain, energy resolution, and signal creation from the MPGD for future NITPC optimization.

R. Veenhof | K. Miuchi | H. Ishiura | Ikeda Tomonori

[1] J. Harton,et al. Low Threshold Results and Limits from the DRIFT Directional Dark Matter Detector , 2016, 1701.00171.

[2] R. Lauer,et al. The novel properties of SF6 for directional dark matter experiments , 2016, 1609.05249.

[3] E. Daw,et al. First background-free limit from a directional dark matter experiment: results from a fully fiducialised DRIFT detector , 2014, 1410.7821.

[4] M. Yousfi,et al. Transport properties of F− in SF6–Xe, SF6–Ar and SF6–He mixtures , 2012 .

[5] T. Tanimori,et al. Detecting the WIMP-wind via spin-dependent interactions , 2003, astro-ph/0310638.

[6] M. Lehner,et al. Suppressing drift chamber diffusion without magnetic field , 2000 .

[7] F. Sauli. GEM: A new concept for electron amplification in gas detectors , 1997 .

[8] R. J. Brunt,et al. Collisional electron detachment and decomposition cross sections for SF−6, SF−5, and F− on SF6 and rare gas targets , 1989 .