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J. A. García Pascual

ORCID: 0000-0002-7399-7353
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About
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A5037824731
Research Areas
  • Particle physics theoretical and experimental studies
  • High-Energy Particle Collisions Research
  • Particle Detector Development and Performance
  • Quantum Chromodynamics and Particle Interactions
  • Dark Matter and Cosmic Phenomena
  • Cosmology and Gravitation Theories
  • Neutrino Physics Research
  • Computational Physics and Python Applications
  • Distributed and Parallel Computing Systems
  • Radiation Detection and Scintillator Technologies
  • Astrophysics and Cosmic Phenomena
  • Black Holes and Theoretical Physics
  • Photocathodes and Microchannel Plates
  • Radiation Effects in Electronics
  • Structural Analysis of Composite Materials
  • Particle Accelerators and Free-Electron Lasers
  • Medical Imaging Techniques and Applications
  • Atomic and Subatomic Physics Research
  • Advanced Data Storage Technologies
  • Rocket and propulsion systems research
  • Parallel Computing and Optimization Techniques
  • CCD and CMOS Imaging Sensors
  • Real-time simulation and control systems
  • Statistical Distribution Estimation and Applications
  • BIM and Construction Integration

Institute of High Energy Physics
 2017-2024

Chinese Academy of Sciences
 2017-2024

Northern Illinois University
 2017-2024

The University of Adelaide
 2017-2023

Istanbul Bilgi University
 2019-2020

Universitat de València
 2019

Instituto de Física Corpuscular
 2019

Institut de Recherche sur les Lois Fondamentales de l'Univers
 2008

Commissariat à l'Énergie Atomique et aux Énergies Alternatives
 1992-2008

CEA Paris-Saclay
 1979-2008

 CEPC Conceptual Design Report: Volume 2 - Physics & Detector
OPENALEX - Publications 
J. Barreiro Guimarães da Costa J. Qian C. Tully Charles Young Lian-Tao Wang and 95 more Manqi Ruan H. Zhu M. Y. Dong Q. Ouyang Zhigang Wu Zhi Deng Yulan Li Huirong Qi Meng Wang C. D. Fu Wei-Ming Yao Franco Grancagnolo Jianbei Liu Tao Hu Haijun Yang F. Bedeschi R. Ferrari Wei Zhao Zian Zhu Paolo Giacomelli L. Li Zhenan Liu Kejun Zhu S. Hou I. Božović-Jelisavc̆ić Y. Fang Q. Li M. Boonekamp Z. Liang F. Piccinini X. Shi M. Abbrescia M. Ahmad X. Ai Sebastiano Albergo Muhammad Abid Aleem M. Alexeev Malik Aliev Wolfgang Altmannshofer F. L. Lucio Alves F. F. An Guangpeng An Haipeng An Qi An Rui An Attilio Andreazza M. Anduze M. Antonello J. A. García Pascual Stefan Antusch Abdesslam Arhrib Nima Arkani–Hamed K. Arndt P. Azzi P. Azzurri R.B. Palmer Bowen Bai Sha Bai Y. Bai Y. Bai V. Balagura I. Balossino Y. Ban V. Barger Timothy Barklow P. Bartalini F. Becattini L. Bellagamba A. Belloni G. Bencivenni J. Scott Berg C. Bernius Monica Bertani C. Bertella Michele Bertucci Xiao-Jun Bi Yuanjie Bi Ligong Bian Tianjian Bian F. Bianchi I. I. Bigi M. Biglietti Andrea Bignami Gianmario Bilei L. Borgonovi D. Bortoletto A. Bortone D. Boscherini A. Bosotti V. Boudry S. Braibant Joseph Bramante P. Branchini Jean-Claude Brient M. Caccia

The Circular Electron Positron Collider (CEPC) is a large international scientific facility proposed by the Chinese particle physics community to explore Higgs boson and provide critical tests of underlying fundamental principles Standard Model that might reveal new physics. CEPC, be hosted in China circular underground tunnel approximately 100 km circumference, designed operate as factory producing electron-positron collisions with center-of-mass energy 240 GeV. collider will also at around...

10.48550/arxiv.1811.10545 preprint EN cc-by-nc-sa arXiv (Cornell University) 2018-01-01
 Micromegas with GEM preamplification for enhanced energy threshold in low-background gaseous time projection chambers
OPENALEX - Publications 
Juan Pablo S. Cebrián T. Dafní David Díez Ibáñez J. Galán and 11 more J. A. García Pascual Adolfo García Sastre I.G. Irastorza Gloria Luzón Marco Cristina Blasco Héctor Mirallas Sánchez Luis Obis Aparicio Alfonso Ortíz de Solórzano Óscar Lázaro Jorge Porrón Lafuente María Jiménez Puyuelo

<ns4:p>Background We develop the concept of a Micromegas readout plane with an additional GEM preamplification stage placed few millimetres above it to increase maximum effective gain combined readout. Methods implement and test in realistic conditions for its application low-background dark matter searches like TREX-DM experiment. For this, we use microbulk type, built radiopure materials. Results report on extra factors about 90, 50 20 1, 4 10 bar...

10.12688/openreseurope.19258.1 article EN cc-by Open Research Europe 2025-02-18
 Micromegas with GEM preamplification for enhanced energy threshold in low-background gaseous time projection chambers
OPENALEX - Publications 
Juan Pablo S. Cebrián T. Dafní David Díez Ibáñez J. Galán and 11 more J. A. García Pascual Adolfo García Sastre I.G. Irastorza Gloria Luzón Marco Cristina Blasco Héctor Mirallas Sánchez Luis Obis Aparicio Alfonso Ortíz de Solórzano Óscar Lázaro Jorge Porrón Lafuente María Jiménez Puyuelo

We develop the concept of a Micromegas readout plane with an additional GEM preamplification stage placed few millimetres above it to increase maximum effective gain combined readout. implement and test in realistic conditions for its application low-background dark matter searches like TREX-DM experiment. For this, we use Microbulk type, built radiopure materials. report on extra factors about 90, 50 20 1, 4 10 bar Ar-1%iC 4H 10. These results are obtained small chamber allowing systematic...

10.12688/openreseurope.19258.2 article EN cc-by Open Research Europe 2025-03-18
 ATLAS liquid argon calorimeter front end electronics
OPENALEX - Publications 
J. Buchanan Liuhong Chen D. M. Gingrich S. Liu H. Chen and 95 more D. Oliveira Damazio F Densing S. Duffin J. Farrell Silllalee S. Kandasamy J.A. Kierstead F. Lanni D. Lissauer H. Ma D. Makowiecki T. A. Müller V. Radeka S. Rescia R. Ruggiero H. Takai K. Wolniewicz H. Ghazlane A. Hoummada L. Hervás T. Hott H. G. Wilkens J. Bán S. Boettcher G. Brooijmans C Y S. Caughron M. Cooke K. Copic D. Dannheim Alan Gara A. Haas I. Katsanos J. A. Parsons S. Simion W. Sippach L. Zhang N. Zhou P. Eckstein Michael Kobel E. Ladygin E. Augé R. Bernier M. Bouchel A Bozzone D. Breton C. De La Taille I Falleau D. Fournier Pierre Imbert G. Martin-Chassard A. Perus J.P. Richer N. Moreau L. Serin V. Tocut J.-J. Veillet D. Zerwas J. Colás N. Dumont-Dayot N. Massol P. Perrodo G. Perrot I. Wingerter-Seez M. Escalier F. Hubaut B. Laforge O. Le Dortz Ph. Schwemling J. Collot D. Dzahini M.-L. Gallin-Martel Philippe Martin W D Cwienk J. Fent L. L. Kurchaninov M. Citterio M. Mazzanti G. F. Tartarelli V. Bansal C. Boulahouache W. Cleland B Liu J. McDonald V. Paolone J. Rabel V. Savinov G Zuk K. Benslama P. Borgeaud Xavier de la Broïse E. Delagnes A. Le Coguie B. Mansoulié J. A. García Pascual J. Teiger

The ATLAS detector has been designed for operation at CERN's Large Hadron Collider. includes a complex system of liquid argon calorimeters. This paper describes the architecture and implementation custom front end electronics developed readout

10.1088/1748-0221/3/09/p09003 article EN Journal of Instrumentation 2008-09-22
 Production of J/ψ and ψ′ mesons in π−N scattering at 150 GeV/c
OPENALEX - Publications 
M. Abolins R. Barate P. Bareyre P. Bonamy P. Borgeaud and 27 more Justine Brisson M. David J. Ernwein F. X. Gentit G. Laurens Y. Lemoigne J. A. García Pascual J. Poinsignon A. Roussarie G. Villet S. Zaninotti P. Astbury A. Duane G. J. King D. Owen D. Pittuck D. Websdale M. C. S. Williams A. Wylie J.G. McEwen B. Brabson R.R. Crittenden R. Heinz J. Krider T. Marshall R. L. McIlwain Thomas R. Palfrey

10.1016/0370-2693(79)90446-5 article EN Physics Letters B 1979-03-01
 Radiation qualification of the front-end electronics for the readout of the ATLAS liquid argon calorimeters
OPENALEX - Publications 
J. Buchanan L. Chen D. M. Gingrich S. Liu H. Chen and 69 more D. Oliveira Damazio F Densing J.A. Kierstead F. Lanni D. Lissauer H. Ma D. Makowiecki V. Radeka S. Rescia H. Takai J. Bán S. Böttcher D. Dannheim J. A. Parsons S. Simon W. Sippach A. Cheplakov V.V. Golikov S.M. Golubyh V. Kukhtin E. Kulagin E. Ladygin V.I. Luschikov V. Obudovsky A. Shalyugin P. Puzo J.P. Richer N. Seguin-Moreau C. De La Taille N. Dumont-Dayot N. Massol O. Le Dortz F. Hubaut B. Laforge David Martín Ph. Schwemling M-L. Andrieux J. Collot D. Dzahini J-Y. Hostachy Ph. Martin H. Brettel W D Cwienk J. Fent K. Jakobs L. L. Kurchaninov H. Oberlack P. Schacht U. Stiegler G. Battistoni M. Citterio P. Sala W. Cleland P. Borgeaud Xavier de la Broïse A. Le Coguie B. Mansoulié J. A. García Pascual B. Dinkespiler Tian Liu R. Stroynowski J. Ye K-J. Grahn P. Hansson B. Lund-Jensen M. L. Chu S. Hou D. Su P. K. Teng

The ATLAS detector has been built to study the reactions produced by Large Hadron Collider (LHC). includes a system of liquid argon calorimeters for energy measurements. electronics amplifying, shaping, sampling, pipelining, and digitizing calorimeter signals is implemented on set front-end electronic boards. boards are installed in crates mounted between calorimeters, where they will be subjected significant levels radiation during LHC operation. As result, all components used had an...

10.1088/1748-0221/3/10/p10005 article EN Journal of Instrumentation 2008-10-29
 SICAL — a high precision silicon-tungsten luminosity calorimeter for ALEPH
OPENALEX - Publications 
D. Bédérède E. Beuville B. Bloch-Devaux L. Gösset A. Joudon and 25 more E. Lançon J. A. García Pascual J.A. Perlas B. Peyaud J. Rander J.-F. Renardy J.-P. Schuller B. Vallage R. Benetta J. Boudreau J. Griffiths R. Grabit P. Jarron B. Löfstedt R. Miquel J.C. Santiard G. Stefanini H. D. Wahl C. Avanzini C. Cerri R. Fantechi R. Lorenzini E.B. Martin G. Pierazzini A. Valassi

10.1016/0168-9002(95)00409-2 article EN Nuclear Instruments and Methods in Physics Research Section A Accelerators Spectrometers Detectors and Associated Equipment 1995-11-01
 Recoil imaging for directional detection of dark matter, neutrinos, and physics beyond the Standard Model
OPENALEX - Publications 
Ciaran A. J. O’Hare D. Loomba K. Altenmüller H. Álvarez-Pol F. D. Amaro and 95 more H. M. Araújo D. Aristizábal Sierra J. Asaadi D. Attié S. Aune C. Awe Y. Ayyad E. Baracchini P. S. Barbeau James Battat Nicole F. Bell B. Biasuzzi L. J. Bignell C. Boehm I. Bolognino F. Brunbauer M. Caamaño C. Cabo D. Caratelli J. M. Carmona J. F. Castel S. Cebrián C. Cogollos D. Collison E. Costa T. Dafni F. Dastgiri C. Deaconu V. De Romeri K. Desch G. Dho F. Di Giambattista D. Díez-Ibáñez G. D'Imperio B. Dutta C. Eldridge S. R. Elliott A. C. Ezeribe A. Fava T. Felkl B. Fernández–Domínguez E. Ferrer-Ribas K. J. Flöthner M.B. Froehlich J. Galán J. Galindo F. García J. A. García Pascual B. P. Gelli M. Ghrear Y. Giomataris K. Gnanvo E. Gramellini Giovanni Grilli di Cortona R. Hall-Wilton J. Harton S. Hedges S. Higashino G. Hill P. C. Holanda T. Ikeda I.G. Irastorza P. Jackson D. Janssens B. Jones J. Kaminski I. Katsioulas K. Kelly N. Kemmerich E. Kemp H. B. Korandla H. Kraus A. Lackner G. J. Lane P. M. Lewis M. Lisowska G. Luzón W. A. Lynch G. Maccarrone K. J. Mack P. A. Majewski R. D. P. Mano C. Margalejo D. Markoff T. Marley David José Gaspar Marques R. Massarczyk G. Mazzitelli C. McCabe L. J. McKie A. G. McLean P. C. McNamara Y. Mei A. Messina A. F. Mills

Recoil imaging entails the detection of spatially resolved ionization tracks generated by particle interactions. This is a highly sought-after capability in many classes detector, with broad applications across and astroparticle physics. However, at low energies, where signatures are small size, recoil only seems to be practical goal for micro-pattern gas detectors. white paper outlines physics case imaging, puts forward decadal plan advance towards directional low-energy recoils sensitivity...

10.48550/arxiv.2203.05914 preprint EN other-oa arXiv (Cornell University) 2022-01-01
 AMPLEX-SiCAL: a large dynamic range low-noise CMOS signal processor for silicon calorimeters
OPENALEX - Publications 
E. Beuville A. Joudon J. A. García Pascual R. Grabit P. Jarron and 4 more G. Stefanini S. Buytaert C. Cerri J. Griffiths

An analog signal processor using commercial 3- mu m CMOS technology has been designed and produced for the silicon luminosity calorimeter SiCAL of ALEPH experiment. The authors present results analysis various tests that have performed on circuit. This is a modified version AMPLEX integrated circuit inner detector UA-2 output voltage swing increased to more than 5.5 V are required large dynamic range 1000 MIPs or 3.8 pC/sup 2/. A fast summation, based neural network principle called follower...

10.1109/23.159703 article EN IEEE Transactions on Nuclear Science 1992-08-01
 AMPLEX-SiCAL: a large dynamic range low-noise CMOS signal processor for silicon calorimeters
OPENALEX - Publications 
E. Beuville A. Joudon J. A. García Pascual R. Grabit P. Jarron and 4 more G. Stefanini S. Buytaert C. Cerri J.L. Giffiths

An analog signal processor using commercial 3- mu m CMOS technology has been designed and produced for the silicon luminosity calorimeter SiCAL of ALEPH experiment. This is a modified version AMPLEX integrated circuit inner detector UA-2 The output voltage swing increased to more than 5.5 V as required large dynamic range 1000 MIPs or 3.8 pC. A fast summation, based on neural network principle called follower aggregation, computes average input charges triggering purposes. chip contains 16...

10.1109/nssmic.1991.259018 article EN Conference Record of the 1991 IEEE Nuclear Science Symposium and Medical Imaging Conference 2002-12-09
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