Accelerator Science and Technology in Europe EuCARD 2012

Romaniuk, R. S.

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Tytuł artykułu

Accelerator Science and Technology in Europe EuCARD 2012

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Romaniuk R. S.

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Abstrakty

Accelerator science and technology is one of a key enablers of the developments in the particle physics, photon physics, electronics and photonics, also applications in medicine and industry. The paper presents a digest of the research results in accelerators in Europe, shown during the third annual meeting of the EuCARD - European Coordination of Accelerator Research and Development. EuCARD concerns building of research infrastructure, including advanced photonic and electronic systems for servicing large high energy physics experiments. There are debated a few basic groups of such systems like: measurement - control networks of large extent, multichannel systems for metrological data acquisition, precision photonic networks for reference time distribution.

Słowa kluczowe

electronics and photonics for high energy physics experiments free electron laser advanced electronic systems integration of hardware and software nuclear electronics

Wydawca

Polish Academy of Sciences, Committee of Electronics and Telecommunication

Czasopismo

International Journal of Electronics and Telecommunications

Rocznik

2012

Tom

Vol. 58, No. 4

Strony

327--334

Opis fizyczny

Bibliogr. 60 poz.

Twórcy

autor

Romaniuk R. S.

rrom@ise.pw.edu.pl

Warsaw University of Technology, Institute of Electronic Systems, Nowowiejska 15/19, Warsaw, Poland

Bibliografia

[1] EuCARD Web page: cern.ch/eucard and INDICO CERN.
[2] R. S. Romaniuk, „Accelerator science and technology in Europe : EuCARD 2012”, Proceedings of SPIE, vol. 8454, 2012, art no. 84540O.
[3] R. S. Romaniuk, „Accelerator technology and high energy physics experiments, Photonics Applications and Web Engineering, Wilga May 2012”, Proceedingsof SPIE, vol. 8454, 2012, art no. 845404.
[4] A. Zagozdzinska, K. T. Pozniak, and R. S. Romaniuk, „Heavy stable charged particles search by novel pattern comparator processor”, Proceedingsof SPIE, vol. 8454, 2012, art. no. 84540P.
[5] R. S. Romaniuk, „Astronomy and space technologies, Photonics Applications and Web Engineering, Wilga May 2012”, Proceedings of SPIE, vol. 8454, 2012, art. no. 845403.
[6] R. S. Romaniuk, „Photon physics and plasma research, Photonics Applications and Web Engineering, Wilga May 2012”, Proceedings of SPIE, vol. 8454, 2012, art. no. 845405.
[7] R. S. Romaniuk, „Optoelectronics devices, sensors, communication and multimedia, Photonics Applications and Web Engineering, Wilga May 2012”, Proceedings of SPIE, vol. 8454, 2012, art. no. 845406.
[8] R. S. Romaniuk, „Biomedical, artificial intelligence and DNA computing, Photonics Applications and Web Engineering, Wilga May 2012”,Proceedingsof SPIE, vol. 8454, 2012, art. no. 845407.
[9] J. Gajda and R. S. Romaniuk, „Laser technology and applications 2012 : a preview”, Proceedings of SPIE, vol. 8454, 2012, art. no. 845418.
[10] B. Niton, K. T. Pozniak, and R. S. Romaniuk, „A plug-in to Eclipse for VHDL sourc codes : functionalities”, Proceedings of SPIE, vol. 8454, 2012, art. no. 84542C.
[11] R. S. Romaniuk, „Wilga photonics and web engineering, January 2012”, Proceedings of SPIE, vol. 8454, 2012, art. no. 845402.
[12] B. Mukherjee, K. T. Pozniak, and R. S. Romaniuk et al., „Application of low-cost Gallium Arsenide light-emitting-diodes as kerma dosemeter and fluence monitor for high-energy neutrons”, Radiation Protection Dosimetry, vol. 126, no. 1-4, pp. 256-260, 2007.
[13] R. Romaniuk and K. Pozniak, „Metrological aspects of accelerator technology and high energy physics experiments”, Measurement Science and Technology, vol. 18, no. 8, 2008, art. no. E01.
[14] P. Fafara, K. T. Pozniak, and R. S. Romaniuk et al., „FPGA-based implementation of a cavity field controller for FLASH and X-FEL”, Measurement Science and Technology, vol. 18, no. 8, pp. 2365-2371, 2008.
[15] A. Burd, K. T. Pozniak, and R. S. Romaniuk et al., „Pi of the sky : all sky, real-time search for fast optical transients”, New Astronomy, vol. 10, no. 5, pp. 409-416, 2005.
[16] A. Burd, K. T. Pozniak, and R. S. Romaniuk et al., „Pi of the sky : automated search for fast optical transients over the whole sky”, Astronomische Nachrichten, vol. 325, no. 6-8, p. 674, 2004.
[17] W. Ackerman et al., „Operation of a free-electron laser from the extreme ultraviolet to the water window”, Nature Photonics, vol. 1, no. 6, pp. 336-342, 2007.
[18] T. Czarski, K. T. Pozniak, and R. S. Romaniuk et al., „Superconducting cavity driving with FPGA controller”, Nuclear Instruments and Methodsin Physics Research A, vol. 568, no. 2, pp. 854-862, 2006.
[19] T. Czarski, K. T. Pozniak, and R. S. Romaniuk et al., „TESLA cavity modeling and digital implementation in FPGA technology for control system development”, Nuclear Instruments and Methods in Physics Research A, vol. 556, no. 2, pp. 565-576, 2006.
[20] T. Czarski, K. T. Pozniak, and R. S. Romaniuk et al., „Cavity parameters identification for TESLA control system development”, Nuclear Instruments and Methods in Physics Research A, vol. 548, no. 3, pp. 283-297, 2005.
[21] R. S. Romaniuk, „Petabit photonic internet”, Photonics Letters of Poland, vol. 3, no. 2, pp. 91-93, 2011.
[22] P. Obroślak, K. T. Pozniak, and R. S. Romaniuk et al., „Digital techniques for noise reduction in CCD detectors”, Photonics Letters of Poland, vol. 2, no. 3, pp. 134-136, 2010.
[23] R. Romaniuk, „Wilga photonics and web engineering 2010”, PhotonicsLetters of Poland, vol. 2, no. 2, pp. 55-57, 2010.
[24] R. Romaniuk and K. T. Pozniak et al., „Optical network and fpga/dsp based control system for free electon laser”, Bulletin of the Polish Academy of Sciences: Technical Sciences, vol. 53, no. 2, pp. 123-138, 2005.
[25] G. Kasprowicz and R. S. Romaniuk et al., „CCD detectors for wide field optical astronomy”, Photonics Letters of Poland, vol. 1, no. 2, pp. 82-84, 2009.
[26] R. S. Romaniuk, „Wilga symposium on photonics applications”, Photonics Letters of Poland, vol. 1, no. 2, pp. 46-48, 2009.
[27] J. R. Just and R. S. Romaniuk, „Highly parallel distributed computing system with optical interconnections”, Microprocessing and Microprogramming, vol. 27, no. 1-5, pp. 489-493, 1989.
[28] R. Romaniuk, „POLFEL - A free electron laser in Poland”, PhotonicsLetters of Poland, vol. 1, no. 3, pp. 103-105, 2009.
[29] R. Romaniuk, „Search for ultimate throughput in ultra-broadband photonic Internet”, International Journal of Electronics and Telecommunications, vol. 57, no. 4, pp. 523-528, 2011.
[30] R. Romaniuk, „Photonics and web engineering 2011”, International Journal of Electronics and Telecommunications, vol. 57, no. 3, pp. 421-428, 2011.
[31] R. Romaniuk, „Accelerator infrastructure in Europe EuCARD 2011”, International Journal of Electronics and Telecommunications, vol. 57, no. 3, pp. 413-419, 2011.
[32] R. Romaniuk, „EuCARD 2010 accelerator technology in Europe”, International Journal of Electronics and Telecommunications, vol. 56, no. 4, pp. 485-488, 2010.
[33] T. Czarski, K. T. Pozniak, and R. S. Romaniuk, „Control system modeling for superconducting accelerators”, in IEEE Instrumentation and Measurement Technology, IEEE Conference Record, 2007, art. no. 4258483.
[34] R. Romaniuk, „Advanced photonic and electronic systems Wilga 2010”, International Journal of Electronics and Telecommunications, vol. 56, no. 4, pp. 479-484, 2010.
[35] R. Romaniuk, „The Photonics Letter of Poland „A new peer-reviewed internet publication of the Photonics Society of Poland”, Photonics Letters of Poland, vol. 1, no. 1, pp. 1-3, 2009.
[36] T. R. Wolinski and R. Romaniuk, „Photonics Society of Poland established”, Metrology and Measurement Systems, vol. 15, no. 2, pp. 241-245, 2008.
[37] S. Chatrchyan et al., „The CMS experiment at the CERN LHC”, Journal of Instrumentation, vol. 3, no. 8, 2008, art. no. S08004.
[38] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Commissioning of the CMS experiment and the cosmic run at four tesla”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03001.
[39] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Performance of the CMS Level-1 trigger during commissioning with cosmic ray muons and LHC beams”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03002.
[40] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Performance of the CMS drift-tube chamber local trigger with cosmic rays”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03003.
[41] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Fine synchronization of the CMS muon drift-tube local trigger using cosmic rays”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03004.
[42] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Commissioning of the CMS High-Level Trigger with cosmic muons”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03005.
[43] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, CMS data processing work flows during an extended cosmic ray run”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03006.
[44] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Commissioning and performance of the CMS pixel tracker with cosmic ray muons”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03007.
[45] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Measurement of the muon stopping power in lead tungstate”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. P03007.
[46] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Comissioning and performance of the CMS silicon strip tracker with cosmic ray muons”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03008.
[47] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Alignment of the CMS silicon tracker during commissioning with cosmic rays”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03009.
[48] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Performance and operation of the CMS electromagnetic calorimeter”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03010.
[49] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Time reconstruction and performance of the CMS electromagnetic calorimeter”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03011.
[50] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Performance of the CMS hadron calorimeter with cosmic ray muons and LHC beam data”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03012.
[51] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Performance of CMS hadron calorimeter timing and synchronization using test beam, cosmic ray, and LHC beam data”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03013.
[52] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Identification and filtering of uncharacteristic noise in the CMS hadron calorimeter”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03014.
[53] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Performance of the CMS drift tube chambers with cosmic rays”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03015.
[54] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Calibration of the CMS drift tube chambers and measurement of the drift velocity with cosmic rays”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03016.
[55] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Performance study of the CMS barrel resistive plate chambers with cosmic rays”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03017.
[56] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Performance of the CMS cathode strip chambers with cosmic rays”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03018.
[57] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Aligning the CMS muon chambers with the muon alignment system during an extended cosmic ray run”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03019.
[58] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Alignment of the CMS muon system with cosmic-ray and beam-halo muons”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03020.
[59] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Precise mapping of the magnetic field in the CMS barrel yoke using cosmic rays”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03021.
[60] S. Chatrchyan, K. T. Pozniak, R. S. Romaniuk, and W. Zabolotny et al., „The CMS Collaboration, Performance of CMS muon reconstruction in cosmic-ray events”, Journal of Instrumentation, vol. 5, no. 3, 2010, art. no. T03022.

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