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1.
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A 20 Gbps PAM4 data transmitter ASIC for particle physics experiments
/ Zhang, L. (Southern Methodist U. ; Hua-Zhong Normal U.) ; Cruda, E.M. (Southern Methodist U.) ; Chao, C-P. (Unlisted, TW) ; Chen, S-W. (Unlisted, TW) ; Deng, B. (HBPU, Huangshi) ; Francisco, R. (CERN) ; Gong, D. (Southern Methodist U.) ; Guo, D. (Southern Methodist U.) ; Hou, S. (Academia Sinica, Taiwan) ; Huang, G. (Hua-Zhong Normal U.) et al.
We present the design and test results of a novel data transmitter ASIC operating up to 20.48 Gbps with 4-level Pulse-Amplitude-Modulation (PAM4) for particle physics experiments. This ASIC, named GBS20, is fabricated in a 65 nm CMOS technology. [...]
arXiv:2202.03509; FERMILAB-PUB-22-110-PPD.-
2022-03-09 - 7 p.
- Published in : JINST 17 (2022) C03011
Fulltext: PDF;
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2.
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QTIA, a 2.5 or 10 Gbps 4-channel array optical receiver ASIC in a 65 nm CMOS technology
/ Sun, H. (Southern Methodist U. (main) ; Hua-Zhong Normal U.) ; Huang, X. (Southern Methodist U. (main)) ; Chao, C.-P. (NSRRC, Taiwan) ; Chen, S.-W. (NSRRC, Taiwan) ; Deng, B. (Hubei U. ; Southern Methodist U.) ; Gong, D. (Southern Methodist U. (main)) ; Hou, S. (Taiwan, Inst. Phys.) ; Huang, G. (Hua-Zhong Normal U.) ; Kulis, S. (CERN) ; Li, C.-Y. (Unlisted, TW) et al.
The Quad transimpedance and limiting amplifier (QTIA) is a 4-channel array optical receiver ASIC, developed using a 65 nm CMOS process. It is configurable between the bit rate of 2.56 Gbps and 10 Gbps per channel. [...]
arXiv:2110.12626; FERMILAB-CONF-21-516-PPD.-
2022-05-13 - 7 p.
- Published in : JINST
Fulltext: fermilab-conf-21-516-ppd - PDF; 295dfc0d20ba17092cffb2a604b99edb - PDF; 2110.12626 - PDF; External link: Fermilab Accepted Manuscript
In : TWEPP 2021 Topical Workshop on Electronics for Particle Physics, Online, Online, 20 - 24 Sep 2021, pp.C05017
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3.
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Application of Quantum Machine Learning to High Energy Physics Analysis at LHC using IBM Quantum Computer Simulators and IBM Quantum Computer Hardware
/ Chan, Jay (Wisconsin U., Madison) ; Guan, Wen (Wisconsin U., Madison) ; Sun, Shaojun (Wisconsin U., Madison) ; Wang, Alex (Wisconsin U., Madison) ; Wu, Sau Lan (Wisconsin U., Madison) ; Zhou, Chen (Wisconsin U., Madison) ; Livny, Miron (U. Wisconsin, Madison (main)) ; Carminati, Federico (CERN) ; Meglio, Alberto Di (CERN) ; Li, Andy C Y (Fermilab) et al.
One of the major objectives of the experimental programs at the LHC is the discovery of new physics. This requires the identification of rare signals in immense backgrounds. [...]
SISSA, 2021 - 6 p.
- Published in : PoS ICHEP2020 (2021) 930
Fulltext: PDF;
In : 40th International Conference on High Energy Physics (ICHEP), Prague, Czech Republic, 28 Jul - 6 Aug 2020, pp.930
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4.
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Application of Quantum Machine Learning using the Quantum Kernel Algorithm on High Energy Physics Analysis at the LHC
/ Wu, Sau Lan (Wisconsin U., Madison) ; Sun, Shaojun (Wisconsin U., Madison) ; Guan, Wen (Wisconsin U., Madison) ; Zhou, Chen (Wisconsin U., Madison) ; Chan, Jay (Wisconsin U., Madison) ; Cheng, Chi Lung (Wisconsin U., Madison) ; Pham, Tuan (Wisconsin U., Madison) ; Qian, Yan (Wisconsin U., Madison) ; Wang, Alex Zeng (Wisconsin U., Madison) ; Zhang, Rui (Wisconsin U., Madison) et al.
Quantum machine learning could possibly become a valuable alternative to classical machine learning for applications in High Energy Physics by offering computational speed-ups. In this study, we employ a support vector machine with a quantum kernel estimator (QSVM-Kernel method) to a recent LHC flagship physics analysis: $t\bar{t}H$ (Higgs boson production in association with a top quark pair). [...]
arXiv:2104.05059; FERMILAB-PUB-21-552-DI-QIS.-
2021-09-08 - 9 p.
- Published in : Phys. Rev. Res. 3 (2021) 033221
Fulltext: PDF; Fulltext from Publisher: PDF; Fulltext from publisher: PDF; External link: Fermilab Library Server
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5.
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Application of Quantum Machine Learning using the Quantum Variational Classifier Method to High Energy Physics Analysis at the LHC on IBM Quantum Computer Simulator and Hardware with 10 qubits
/ Wu, Sau Lan (Wisconsin U., Madison) ; Chan, Jay (Wisconsin U., Madison) ; Guan, Wen (Wisconsin U., Madison) ; Sun, Shaojun (Wisconsin U., Madison) ; Wang, Alex (Wisconsin U., Madison) ; Zhou, Chen (Wisconsin U., Madison) ; Livny, Miron (Wisconsin U., Madison) ; Carminati, Federico (CERN) ; Di Meglio, Alberto (CERN) ; Li, Andy C.Y. (Fermilab) et al.
One of the major objectives of the experimental programs at the LHC is the discovery of new physics. This requires the identification of rare signals in immense backgrounds. [...]
arXiv:2012.11560; FERMILAB-PUB-20-675-DI-QIS.-
2021-10-26 - 12 p.
- Published in : J. Phys. G 48 (2021) 125003
Fulltext: 2012.11560 - PDF; fermilab-pub-20-675-di-qis - PDF; Fulltext from Publisher: PDF; External link: Fermilab Library Server
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6.
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Development of a Compact Permanent Magnet Cyclotron for Accelerator Mass Spectrometry
/ Young, A T ; Bertsche, K J ; Clark, D J ; Halbach, K ; Kunkel, W B ; Leung, K N ; Li, C Y ; Rawlins, A ; Schlüter, Ross D ; Stuart, M E et al.
1993
External link: Published version from JACoW
In : 15th IEEE Particle Accelerator Conference, Washington, DC, USA, 17 - 20 May 1993, pp.1727
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