Your search keyword '"Setiawan, H."' showing total 3 results

1. The S$\pi$RIT Time Projection Chamber

Author

Barney, J., Estee, J., Lynch, W. G., Isobe, T., Jhang, G., Kurata-Nishimura, M., McIntosh, A. B., Murakami, T., Shane, R., Tangwancharoen, S., Tsang, M. B., Cerizza, G., Kaneko, M., Lee, J. W., Tsang, C. Y., Wang, R., Anderson, C., Baba, H., Chajecki, Z., Famiano, M., Hodges-Showalter, R., Hong, B., Kobayashi, T., Lasko, P., Łukasik, J., Nakatsuka, N., Olsen, R., Otsu, H., Pawłowski, P., Pelczar, K., Powell, W., Sakurai, H., Santamaria, C., Setiawan, H., Taketani, A., Winkelbauer, J. R., Xiao, Z., Yennello, S. J., Yurkon, J., and Zhang, Y.

Subjects

Physics - Instrumentation and Detectors, Nuclear Experiment

Abstract

The SAMURAI Pion Reconstruction and Ion-Tracker Time Projection Chamber (S$\pi$RIT TPC) was designed to enable measurements of heavy ion collisions with the SAMURAI spectrometer at the RIKEN Radioactive Isotope Beam Factory and provide constraints on the Equation of State of neutron-rich nuclear matter. The S$\pi$RIT TPC has a 50.5 cm drift length and an 86.4 cm $\times$ 134.4 cm pad plane with 12,096 pads that are equipped with the Generic Electronics for TPCs readout electronics. The S$\pi$RIT TPC allows excellent reconstruction of particles and provides isotopic resolution for pions and other light charged particles across a wide range of energy losses and momenta. Details of the S$\pi$RIT TPC are presented, along with discussion of the TPC performance based on cosmic ray and experimental data., Comment: 12 pages, 20 figures

Published

2020

2. On Determining Dead Layer and Detector Thicknesses for a Position-Sensitive Silicon Detector

Author

Manfredi, J., Lee, Jenny, Lynch, W. G., Niu, C. Y., Tsang, M. B., Anderson, C., Barney, J., Brown, K. W., Chajecki, Z., Chan, K. P., Chen, G., Estee, J., Li, Z., Pruitt, C., Rogers, A. M., Sanetullaev, A., Setiawan, H., Showalter, R., Tsang, C. Y., Winkelbauer, J. R., Xiao, Z., and Xu, Z.

Subjects

Physics - Instrumentation and Detectors, Nuclear Experiment

Abstract

In this work, two particular properties of the position-sensitive, thick silicon detectors (known as the "E" detectors) in the High Resolution Array (HiRA) are investigated: the thickness of the dead layer on the front of the detector, and the overall thickness of the detector itself. The dead layer thickness for each E detector in HiRA is extracted using a measurement of alpha particles emitted from a $^{212}$Pb pin source placed close to the detector surface. This procedure also allows for energy calibrations of the E detectors, which are otherwise inaccessible for alpha source calibration as each one is sandwiched between two other detectors. The E detector thickness is obtained from a combination of elastically scattered protons and an energy-loss calculation method. Results from these analyses agree with values provided by the manufacturer., Comment: Accepted for publication in Nuclear Instruments and Methods in Physics Research

Published

2018

3. The SπRIT time projection chamber

Author

Barney, J., Estee, J., Lynch, W. G., Isobe, T., Jhang, G., Kurata-Nishimura, M., McIntosh, A. B., Murakami, T., Shane, R., Tangwancharoen, S., Tsang, M. B., Cerizza, G., Kaneko, M., Lee, J. W., Tsang, C. Y., Wang, R., Anderson, C., Baba, H., Chajecki, Z., Famiano, M., Hodges-Showalter, R., Hong, B., Kobayashi, T., Lasko, P., Łukasik, J., Nakatsuka, N., Olsen, R., Otsu, H., Pawłowski, P., Pelczar, K., Powell, W., Sakurai, H., Santamaria, C., Setiawan, H., Taketani, A., Winkelbauer, J. R., Xiao, Z., Yennello, S. J., Yurkon, J., and Zhang, Y.

Subjects

010302 applied physics, Physics, Range (particle radiation), Physics - Instrumentation and Detectors, Time projection chamber, Spectrometer, Physics::Instrumentation and Detectors, Cosmic ray, Nuclear matter, 01 natural sciences, Charged particle, 010305 fluids & plasmas, Nuclear physics, Pion, 0103 physical sciences, Nuclear Experiment, Instrumentation, Beam (structure)

Abstract

The SAMURAI Pion Reconstruction and Ion-Tracker Time Projection Chamber (S$\pi$RIT TPC) was designed to enable measurements of heavy ion collisions with the SAMURAI spectrometer at the RIKEN Radioactive Isotope Beam Factory and provide constraints on the Equation of State of neutron-rich nuclear matter. The S$\pi$RIT TPC has a 50.5 cm drift length and an 86.4 cm $\times$ 134.4 cm pad plane with 12,096 pads that are equipped with the Generic Electronics for TPCs readout electronics. The S$\pi$RIT TPC allows excellent reconstruction of particles and provides isotopic resolution for pions and other light charged particles across a wide range of energy losses and momenta. Details of the S$\pi$RIT TPC are presented, along with discussion of the TPC performance based on cosmic ray and experimental data., Comment: 12 pages, 20 figures

Published

2021