Zobrazeno 1 - 10
of 171
pro vyhledávání: '"Kohse G."'
Publikováno v:
EPJ Web of Conferences, Vol 288, p 04010 (2023)
This work summarizes neutronic calculations performed for the CALORRE differential calorimeter specifically designed by Aix Marseille University to inform the irradiation campaign planning for testing in MITR within the framework of the CALOR-I resea
Externí odkaz:
https://doaj.org/article/4c840a832b7e4ac4bdf587e2c99a8919
Publikováno v:
EPJ Web of Conferences, Vol 288, p 04004 (2023)
This paper presents the preliminary characterization of a new reduced-height CALORRE differential calorimeter designed and fabricated for the irradiation in the MITR within the framework of the CALOR-I program. The paper begins by focusing on the pre
Externí odkaz:
https://doaj.org/article/537cfb4e8a724e489c8b834f0ee89106
Publikováno v:
EPJ Web of Conferences, Vol 253, p 04017 (2021)
This paper presents an experimental study of the calibration of a non-adiabatic single-cell calorimeter called KAROLINA. This type of sensor is used to quantify the nuclear heating rate inside MTRs (Material Testing Reactors). The calibration of this
Externí odkaz:
https://doaj.org/article/afced4262bef41be91c6e9303a7d3101
Publikováno v:
EPJ Web of Conferences, Vol 253, p 04016 (2021)
This paper deals with the CALORRE differential calorimeter patented by Aix-Marseille University and the CEA in 2015. Firstly, the paper focuses on the presentation of the first prototype of CALORRE calorimeter qualified under real conditions during t
Externí odkaz:
https://doaj.org/article/ea9e3665fde546d394f89e8a081cbff1
Publikováno v:
EPJ Web of Conferences, Vol 170, p 04019 (2018)
This paper gives a short review of sensors dedicated to measuring nuclear heating rate inside fission reactors in France and USA and especially inside Material Testing Reactors. These sensors correspond to heat flow calorimeters composed of a single
Externí odkaz:
https://doaj.org/article/4f5c7c473f164dd198c17ac1188c960d
Akademický článek
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Autor:
Lopez, J. P., Ahlen, S., Battat, J., Caldwell, T., Chernicoff, M., Deaconu, C., Dujmic, D., Dushkin, A., Fedus, W., Fisher, P., Golub, F., Henderson, S., Inglis, A., Kaboth, A., Kohse, G., Kirsch, L., Lanza, R., Lee, A., Monroe, J., Ouyang, H., Sahin, T., Sciolla, G., Skvorodnev, N., Tomita, H., Wellenstein, H., Wolfe, I., Yamamoto, R., Yegoryan, H.
The Dark Matter Time Projection Chamber (DMTPC) collaboration is developing low-pressure gas TPC detectors for measuring WIMP-nucleon interactions. Optical readout with CCD cameras allows for the detection for the daily modulation in the direction of
Externí odkaz:
http://arxiv.org/abs/1109.3501
Autor:
Battat, J. B. R., Ahlen, S., Caldwell, T., Deaconu, C., Dujmic, D., Fedus, W., Fisher, P., Golub, F., Henderson, S., Inglis, A., Kaboth, A., Kohse, G., Lanza, R., Lee, A., Lopez, J., Monroe, J., Sahin, T., Sciolla, G., Skvorodnev, N., Tomita, H., Wellenstein, H., Wolfe, I., Yamamoto, R., Yegoryan, H.
The Dark Matter Time Projection Chamber (DMTPC) experiment uses CF_4 gas at low pressure (0.1 atm) to search for the directional signature of Galactic WIMP dark matter. We describe the DMTPC apparatus and summarize recent results from a 35.7 g-day ex
Externí odkaz:
http://arxiv.org/abs/1012.3912
Autor:
Ahlen, S., Battat, J. B. R., Caldwell, T., Deaconu, C., Dujmic, D., Fedus, W., Fisher, P., Golub, F., Henderson, S., Inglis, A., Kaboth, A., Kohse, G., Lanza, R., Lee, A., Lopez, J., Monroe, J., Sahin, T., Sciolla, G., Skvorodnev, N., Tomita, H., Wellenstein, H., Wolfe, I., Yamamoto, R., Yegoryan, H.
Publikováno v:
Phys.Lett.B695:124-129,2011
The Dark Matter Time Projection Chamber (DMTPC) is a low pressure (75 Torr CF4) 10 liter detector capable of measuring the vector direction of nuclear recoils with the goal of directional dark matter detection. In this paper we present the first dark
Externí odkaz:
http://arxiv.org/abs/1006.2928
Autor:
Battat, J. B. R., Ahlen, S., Caldwell, T., Dujmic, D., Dushkin, A., Fisher, P., Golub, F., Goyal, S., Henderson, S., Inglis, A., Lanza, R., Lopez, J., Kaboth, A., Kohse, G., Monroe, J., Sciolla, G., Skvorodnev, B. N., Tomita, H., Vanderspek, R., Wellenstein, H., Yamamoto, R.
Publikováno v:
AIP Conf.Proc.1182:276-279,2009
By correlating nuclear recoil directions with the Earth's direction of motion through the Galaxy, a directional dark matter detector can unambiguously detect Weakly Interacting Massive Particles (WIMPs), even in the presence of backgrounds. Here, we
Externí odkaz:
http://arxiv.org/abs/0907.0675