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R. X. Yang

ORCID: 0000-0003-0850-1128
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A5040016222
Research Areas
  • Particle physics theoretical and experimental studies
  • Quantum Chromodynamics and Particle Interactions
  • High-Energy Particle Collisions Research
  • Particle Detector Development and Performance
  • Dark Matter and Cosmic Phenomena
  • Radiation Detection and Scintillator Technologies
  • Particle Accelerators and Free-Electron Lasers
  • Neutrino Physics Research
  • Nuclear physics research studies
  • Superconducting Materials and Applications
  • Computational Physics and Python Applications
  • Technology and Human Factors in Education and Health
  • Drilling and Well Engineering
  • Medical Imaging Techniques and Applications
  • Tunneling and Rock Mechanics
  • Grouting, Rheology, and Soil Mechanics

Anhui University of Science and Technology
 2025

City University of Seattle
 2022

University of Science and Technology of China
 2016-2021

Institute of High Energy Physics
 2021

Princeton University
 2004-2014

High Energy Accelerator Research Organization
 2005

The University of Melbourne
 2005

The University of Tokyo
 2004

 Status of the Belle silicon vertex detector
OPENALEX - Publications 
Z. Natkaniec H. Aihara Y. Asano T. Aso A. M. Bakich and 92 more T. E. Browder M.-C. Chang Y. Chao K. F. Chen S. Chidzik A. Chouvikov J. Dalseno Richard M. Dowd R. Fernholz S. Fratina M. Friedl H. Fujii Y. Fujiyama J. Haba K. Hara T. Hara B. Harrop T. Haruyama Kohei Hayashi M. Hazumi D. Heffernan T. Higuchi Akinori Igarashi Y. Igarashi H. Ikeda H. Ishino S. Iwaida Takashi Kameshima P. Kapusta K. Kasami T. Kawasaki A. Kibayashi S. T. Koike S. Korpar P. Križan H. Kurashiro A. Kusaka T. Lesiak D. Marlow H. Matsumoto Y. Mikami H. Miyake G. R. Moloney S. Nozaki R. Ohkubo S. Okuno Shunsuke Ono Y. Onuki W. Ostrowicz H. Ozaki L. S. Peak M. Pernicka M. Rosen M. Różańska N. Sato S. Schmid J. Schümann T.-A. Shibata R. Stamen S. Stanič H. Steininger K. Sumisawa J. Suzuki H. Tajima O. Tajima Kazumasa Takahashi F. Takasaki N. Tamura M. Tanaka G. N. Taylor K. Trabelsi W. Trischuk T. Tsuboyama K. Uchida K. Ueno K. Ueno Y. Ushiroda S. Vahsen G. Varner K. E. Varvell Y.S. Velikzhanin C.C. Wang M.Z. Wang M. Watanabe Y. Watanabe H. Yamamoto Yoshio Yamashita M. Yamauchi R. X. Yang Y. Yasu T. Ziegler D. Žontar

10.1016/j.nima.2005.11.228 article EN Nuclear Instruments and Methods in Physics Research Section A Accelerators Spectrometers Detectors and Associated Equipment 2005-12-30
 Adaptability evaluation model and experiment of full section SBM in deep strata based on AHP-fuzzy theory
OPENALEX - Publications 
Sheng‐Huoo Ni Ying Xu Peiyuan Chen Jinjin Ge R. X. Yang and 2 more Ziyi Yang Guang Yang

10.1038/s41598-024-84123-7 article EN cc-by-nc-nd Scientific Reports 2025-01-02
 Non-explosive directional fracturing blasting using coal-based solid waste expanding agent
OPENALEX - Publications 
Quan Zhang Manchao He Jiong Wang Shan Guo Chao Wang and 5 more Chenjie Hong Kai Chen R. X. Yang Xuepeng Zhang Yang Jianwei

10.1016/j.jrmge.2025.04.003 article EN cc-by-nc-nd Journal of Rock Mechanics and Geotechnical Engineering 2025-04-01
 The upgrade system of BESIII ETOF with MRPC technology
OPENALEX - Publications 
X.Z. Wang Y. J. Sun C. Li Y. K. Heng Z. Wu and 12 more Ping Cao H. L. Dai Xiangdong Ji W. X. Gong Zhen Liu X.L. Luo Sun We Shiang‐Yu Wang Y. Wang R. X. Yang M. Ye J. Zhao

An upgrade, based on Multigap Resistive Plate Chamber (MRPC) technology, of the endcap Time-Of-Flight (ETOF) detector Beijing Spectrometer III (BESIII) has been proposed for replacement current scintillator + PMT ETOF, with aim improving time resolution down to 80 ps sigma. This improvement will enhance particle identification capability meet higher precision requirements physics. The ETOF system including MRPC modules, Front End Electronics (FEE), CLOCK module, fast control boards and Time...

10.1088/1748-0221/11/08/c08009 article EN Journal of Instrumentation 2016-08-17
 Belle SVD2 vertex detector
OPENALEX - Publications 
H. Aihara Y. Asano T. Aso A. M. Bakich M. Barbero and 92 more T. E. Browder M.-C. Chang Y. Chao K. F. Chen S. Chidzik A. Chouvikov J. Dalseno Richard M. Dowd Robert Fernholz S. Fratina M. Friedl H. Fujii Y. Fujiyama J. Haba K. Hara T. Hara B. Harrop T. Haruyama Kohei Hayashi M. Hazumi D. Heffernan T. Higuchi Akinori Igarashi Y. Igarashi H. Ikeda H. Ishino S. Iwaida Takashi Kameshima P. Kapusta K. Kasami T. Kawasaki A. Kibayashi S. T. Koike S. Korpar P. Križan H. Kurashiro A. Kusaka T. Lesiak D. Marlow H. Matsumoto Y. Mikami H. Miyake G. R. Moloney Z. Natkaniec S. Nozaki R. Ohkubo S. Okuno Shunsuke Ono Y. Onuki W. Ostrowicz H. Ozaki L. S. Peak M. Pernicka M. Rosen M. Różańska N. Sato S. Schmid J. Schümann T.-A. Shibata R. Stamen S. Stanič H. Steininger K. Sumisawa J. Suzuki H. Tajima O. Tajima Kazumasa Takahashi F. Takasaki N. Tamura M. Tanaka G. N. Taylor K. Trabelsi T. Tsuboyama K. Uchida K. Ueno K. Ueno Y. Ushiroda S. Vahsen G. Varner K. E. Varvell Y.S. Velikzhanin C.C. Wang M.Z. Wang M. Watanabe Y. Watanabe H. Yamamoto Y. Yamashita M. Yamauchi R. X. Yang Y. Yasu T. Ziegler D. Žontar

10.1016/j.nima.2006.05.281 article EN Nuclear Instruments and Methods in Physics Research Section A Accelerators Spectrometers Detectors and Associated Equipment 2006-07-08
 The improved ladder production for the Belle silicon vertex detector (SVD2.1)
OPENALEX - Publications 
Thomas Ziegler H. Aihara Y. Asano T. Aso A. M. Bakich and 92 more M. Barbero T. E. Browder M.-C. Chang Y. Chao K. F. Chen S. Chidzik A. Chouvikov J. Dalseno Richard M. Dowd Robert Fernholz S. Fratina M. Friedl H. Fujii Y. Fujiyama J. Haba K. Hara T. Hara B. Harrop T. Haruyama Kohei Hayashi M. Hazumi D. Heffernan T. Higuchi Akinori Igarashi Y. Igarashi H. Ikeda H. Ishino S. Iwaida Takashi Kameshima P. Kapusta K. Kasami T. Kawasaki A. Kibayashi S. T. Koike S. Korpar P. Križan H. Kurashiro A. Kusaka T. Lesiak D. Marlow H. Matsumoto Y. Mikami H. Miyake G. R. Moloney Z. Natkaniec S. Nozaki R. Ohkubo S. Okuno Shunsuke Ono Y. Onuki W. Ostrowicz H. Ozaki L. S. Peak M. Pernicka M. Rosen M. Różańska N. Sato S. Schmid J. Schümann T.-A. Shibata R. Stamen S. Stanič H. Steininger K. Sumisawa J. Suzuki H. Tajima O. Tajima Kazumasa Takahashi F. Takasaki N. Tamura M. Tanaka G. N. Taylor K. Trabelsi T. Tsuboyama K. Uchida K. Ueno K. Ueno Y. Ushiroda S. Vahsen G. Varner K. E. Varvell Y. Velikzhanin C. C. Wang Meng Wang M. Watanabe Y. Watanabe H. Yamamoto Y. Yamashita M. Yamauchi R. X. Yang Y. Yasu D. Zontar

In autumn 2003, data taking with the new silicon vertex detector SVD2.0 in Belle started at KEK-B energy-asymmetric e/sup +/e/sup -/ collider Tsukuba, Japan. The works as expected, however, it was decided to produce replacement ladders for inner two layers of which are most exposed high radiation dose from beam. do not merely reproduce existing design but include some significant improvements. readout electronics is implemented on a hybrid board heat transfer scheme order dissipate produced...

10.1109/tns.2005.856626 article EN IEEE Transactions on Nuclear Science 2005-10-01
 Level-1 silicon vertex detector trigger at Belle
OPENALEX - Publications 
H. Kurashiro H. Aihara Y. Asano T. Aso A. M. Bakich and 95 more M. Barbero T. E. Browder M.-C. Chang Y. Chao K. F. Chen S. Chidzik A. Chouvikov J. Dalseno Richard M. Dowd R. Fernholz S. Fratina M. Friedl H. Fujii Y. Fujiyama J. Haba K. Hara T. Hara B. Harrop T. Haruyama Kohei Hayashi M. Hazumi D. Heffernan T. Higuchi Akinori Igarashi Y. Igarashi H. Ikeda H. Ishino S. Iwaida Takashi Kameshima J. Kaneko P. Kapusta K. Kasami T. Kawasaki A. Kibayashi S. T. Koike S. Korpar P. Križan A. Kusaka T. Lesiak D. Marlow H. Matsumoto Y. Mikami H. Miyake G. R. Moloney T. Nakadaira Z. Natkaniec S. Nozaki R. Ohkubo F. Ohno S. Okuno Shunsuke Ono Y. Onuki W. Ostrowicz Hiroshi Ozaki L. S. Peak M. Pernicka M. Rosen M. Różańska N. Sato S. Schmid J. Schümann T. Shibata R. Stamen S. Stanič H. Steininger K. Sumisawa J. Suzuki H. Tajima O. Tajima Kazumasa Takahashi F. Takasaki N. Tamura M. Tanaka G. N. Taylor K. Trabelsi T. Tsuboyama K. Uchida K. Ueno K. Ueno Y. Ushiroda S. Vahsen G. Varner K. E. Varvell Y. Velikzhanin C.C. Wang M.Z. Wang M. Watanabe Y. Watanabe H. Yamamoto Y. Yamashita M. Yamauchi R. X. Yang Y. Yasu D. Zontar T. Ziegler

We present a newly developed fast trigger system that uses the silicon vertex detector (SVD) for Belle experiment at KEKB energy-asymmetric e/sup +/e/sup -/ collider. It is designed to issue with latency of 1.85 /spl mu/s central (GDL). The primary purpose SVD reduce beam-induced background events by requiring tracks come from interaction point. receives signals VA1TA front-end integrated circuits, which read out on silicon-strips. are constructed them in combination information drift...

10.1109/nssmic.2004.1462572 article EN IEEE Symposium Conference Record Nuclear Science 2004. 2005-08-10
 The Belle L1.5 trigger
OPENALEX - Publications 
R. Stamen Thomas Ziegler H. Aihara Y. Asano T. Aso and 92 more A. M. Bakich M. Barbero T. E. Browder M.-C. Chang Y. Chao K. F. Chen S. Chidzik A. Chouvikov J. Dalseno Richard M. Dowd Robert Fernholz S. Fratina M. Friedl H. Fujii Y. Fujiyama J. Haba K. Hara T. Hara B. Harrop T. Haruyama Kohei Hayashi M. Hazumi D. Heffernan T. Higuchi Akinori Igarashi Y. Igarashi H. Ikeda H. Ishino S. Iwaida Takashi Kameshima P. Kapusta K. Kasami T. Kawasaki A. Kibayashi S. T. Koike S. Korpar P. Križan H. Kurashiro A. Kusaka T. Lesiak D. Marlow H. Matsumoto Y. Mikami H. Miyake G. R. Moloney Z. Natkaniec S. Nozaki R. Ohkubo S. Okuno Shunsuke Ono Y. Onuki W. Ostrowicz H. Ozaki L. S. Peak M. Pernicka M. Rosen M. Różańska N. Sato S. Schmid J. Schümann T.-A. Shibata S. Stanič H. Steininger K. Sumisawa J. Suzuki H. Tajima O. Tajima Kazumasa Takahashi F. Takasaki N. Tamura M. Tanaka G. N. Taylor K. Trabelsi T. Tsuboyama K. Uchida K. Ueno K. Ueno Y. Ushiroda S. Vahsen G. Varner K. E. Varvell Y. Velikzhanin C.C. Wang M.Z. Wang M. Watanabe Y. Watanabe H. Yamamoto Y. Yamashita M. Yamauchi R. X. Yang Y. Yasu D. Zontar

During the summer shutdown of 2003 new silicon vertex detector SVD2 was installed in Belle at KEK-B factory Tsukuba, Japan and started to take data October 2003. It provides important improvements tracking capabilities adds trigger functionality. In addition a hardware level 1.5 designed that takes advantage digitized SVD hit data. The improvement system is deal with increasing luminosity higher beam currents collider. design reviewed results from taking are presented.

10.1109/nssmic.2004.1462567 article EN IEEE Symposium Conference Record Nuclear Science 2004. 2005-08-10
 A study of emotional interaction decision making in human-computer interaction based on the concept of emotional cognitive evaluation
OPENALEX - Publications 
R. X. Yang Jun Zhang

As science and technology continue to advance, there is a growing desire for computers gradually begin replace humans in some complex tasks, as well them have more human-like functions. result, the modern field of artificial intelligence research has begun focus on new direction emotions, study emotional robots relies ever-improving theories cognitive psychology, psychiatry, evaluation emotions. Most machine learning algorithms ignore high-level regulatory role cognition emotion, do not...

10.1145/3598438.3598467 article EN 2022-12-09
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