Publications:

  1. H. Niewiadomski et al., Near-edge Performance of the TOTEM ’Edgeless’ Silicon Detectors with Current Tterminating Structure (CTS), being reviewed.
  2. H. Niewiadomski et al., Performance of a 3D Active Edge Planar Silicon Detector, being reviewed.
  3. K. Eggert, P. Aspell, R. Assmann, V. Avati, M. Deile, H. Niewiadomski, V. Previtali,
    E. Radermacher, T. Weiler, Detection of Diffractive Protons in IR3 at the LHC, in progress.
  4. Da Via, C. et al., 3D Active Edge Silicon Detector Tests With 120 GeV Muons, IEEE Transactions on Nuclear Science 56, pp. 505-518, 10.1109/TNS.2009.2013951, April 2009
  5. G. Ruggiero, V. Avati, G. Antchev, M. Deile, K. Eggert, V. Eremin, J. Kaspar, H. Niewiadomski, J. Petäjäjärvi, E. Radicioni, F. Ravotti, E. Radermacher, W. Snoeys, W. Spearman, J. Wu,
    Characteristics of edgeless silicon detectors for the Roman Pots of the TOTEM experiment at the LHC    , Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 29 January 2009.
  6. The TOTEM Collaboration, Diffraction at TOTEM, Proceedings of the HERA and the LHC workshop, DESY–PROC–2009–02, pp. 527-539, arXiv:0903.3861.
  7. G. Ruggiero, V. Avati, G. Antchev, M. Deile, K. Eggert, V. Eremin, J. Kaspar, H. Niewiadomski, F. Ravotti, E. Radermacher, W. Snoeys, W. Spearman, Planar Edgeless Silicon Detectors for the TOTEM Experiment, NIMA, PSD2008 in Glasgow.
  8. Total Cross-Section Measurement and Diffractive Physics with TOTEM
    Proceedings of the Elastic and Diffractive Scattering Workshop (Blois 2007), DESY, Hamburg, Germany, May 2007.
  9. The TOTEM Collaboration, The TOTEM Experiment at the LHC, 2008 JINST 3 S08007,
    doi: 10.1088/1748-0221/3/08/S08007.
  10. The TOTEM Collaboration, The TOTEM Front End Driver, its Components and Applications in the TOTEM Experiment, TWEPP-07 Topical Workshop on Electronics for Particle Physics, 3-7 September 2007, Published in Prague 2007, Electronics for particle physics.
  11. The TOTEM Collaboration, The TOTEM electronics system, TWEPP-07 Topical Workshop on Electronics for Particle Physics, 3-7 September 2007, Published in Prague 2007, Electronics for particle physics.
  12. The TOTEM Collaboration, Protection circuit for the T2 readout electronics of the TOTEM experiment, Nucl. Instrum. Meth. A572:378-381, 2007.
  13. The TOTEM Collaboration, Early TOTEM running with the 90-m optics, CERN-LHCC-2007-013, CERN-LHCC-G-130, Mar 2007.
  14. The CMS and TOTEM diffractive and forward physics working group: Prospects for Diffractive and Forward Physics at the LHC, CERN/LHCC 2006-039/G-124, December 2006.
  15. E. Noschis for the TOTEM Collaboration: Final Size Planar Edgeless Silicon Detectors for the TOTEM Experiment, Nucl. Instrum. Methods Phys. Res., A 563 (2006) 41.
  16. Fabrizio Ferro for the TOTEM Collaboration: TOTEM experiment at the LHC: status and program, Diffraction 06, International Workshop on Diffraction in High-Energy Physics, September 5-10, 2006, Adamantas, Milos Island, Grece.
  17. G. Ruggiero, on the behalf of the TOTEM Collaboration: Edgeless Silicon Detectors for the TOTEM Experiment, IEEE Trans. Nucl. Sci. 52 (2005) 5.
  18. M. Deile, for the TOTEM Collaboration: Diffraction and Total Cross-Section at the Tevatron and the LHC, proceedings of the Hadron Collider Physics Symposium 2005, Les Diablerets, Switzerland, 4-9 July 2005.
  19. K. Eggert, V. Avati, M. Deile, for the TOTEM Collaboration: TOTEM Physics, Proceedings of the XIth International Conference on Elastic and Diffractive Scattering Towards the High Energy Frontiers, Blois, France, May 15-20, 2005.
  20. M. Deile, for the TOTEM Collaboration: Tests of a Roman Pot Prototype for the TOTEM Experiment, Proceedings of PAC05, Knoxville, Tennessee, USA, May 2005.
  21. G. Ruggiero, on the behalf of the TOTEM Collaboration: THE TOTEM Detectors, XIth International Conference on Elastic and Diffractive Scattering Chateau de Blois, France, May 15 - 20, 2005
  22. M. Deile, for the TOTEM Collaboration: The First Year at LHC: Diffractive Physics, proceedings of "Physics at LHC", July 2004, Vienna; to be published in a supplement of the Czechoslovak Journal of Physics.
  23. G. Ruggiero, on the behalf of the TOTEM Collaboration: Planar edgeless silicon detectors for the TOTEM experiment, 2004 IEEE Nuclear Science Symposium And Medical Imaging Conference NSS-MIC 2004 , Rome, Italy , 16 - 22 Oct 2004 - pages 922-924 (v.2)
  24. Mario Deile for the TOTEM Collaboration: TOTEM: Forward Physics at the LHC, proceedings of the DIS2004, April 2004, Strbske Pleso, Slovakia.
  25. Eggert K., Oriunno M., Bozzo M., et al.: TOTEM Technical Design Report, Geneva, CERN, Switzerland, 7 January 2004.
  26. Pleban M., Niewiadomski H., Buciak P., Selvaraj H., Sapiecha P., Łuba T.: NOAH a tool for argument reduction, serial and parallel decomposition of decision tables, Proc. Euromicro Symposium on Digital Systems Design, pp. 248-254, Belek-Antalya, Turkey, 1-6 September 2003.
  27. Selvaraj H., Niewiadomski H., Buciak P., Pleban M., Sapiecha P., Łuba T., Muthukumar V.: Implementation of Large Neural Networks using Decomposition, Proceedings of the International Conference on Mathematics and Engineering Techniques in Medicine and Biological Sciences, pp. 249-255, Las Vegas, Nevada, USA, June 24-27 2002.
  28. Pleban M., Buciak P., Niewiadomski H., Selvaraj H., Sapiecha P., Łuba T.: Functional Decomposition Based on Multi-Valued Decision Diagrams, Proceedings of the Second IASTED International Conference Artifical Intelligence and Applications, pp. 58-62, Malaga, Spain, 9-12 September 2002.
  29. Buciak P., Łuba T., Niewiadomski H., Pleban M., Sapiecha P., Selvaraj H.: Decomposition and Argument Reduction of Neural Networks, IEEE Sixth International Conference on Neural Networks and Soft Computing (ICNNSC'02), Zakopane, Poland, June 11-15, 2002.
  30. Selvaraj H., Niewiadomski H., Buciak P., Pleban M., Sapiecha P., Łuba T.: Implementation of Large Neural Networks using Decomposition, The 2002 International Conference on Mathematics and Engineering Techniques in Medicine and Biological Sciences (METMBS'02), Las Vegas, USA, June 24-27, 2002.
  31. Niewiadomski H., Buciak P., Sapiecha P., Czenko M., Yanushkevitch S., Shmerko V.: Algorytmy redukcji argumentów dla wielowartościowych relacji, Materiały V Krajowej Konferencji Naukowej Reprogramowalne Układy Cyfrowe, pp. 9-18, Szczecin, Poland, 2002.
  32. Niewiadomski H., Buciak P., Pleban M., Selvaraj H., Sapiecha P., Łuba T: Decomposition of Large Neural Networks, Proceedings of the IASTED International Conference, Applied Informatics, International Symposium on Artificial Intelligence and Applications, pp. 165-170, Innsbruck, Austria, February 18-21, 2002.
  33. Pleban M., Niewiadomski H., Buciak P., Sapiecha P., Yanushkevich S., Shmerko V.: Argument reduction algorithms for multi-valued relations, IASTED International Conference on Artificial Intelligence and Soft Computing (ASC 2002), pp. 609-614, Banff, Canada, July 17-19, 2002.
  34. Łuba T., Niewiadomski H., Pleban M., Selvaraj H., Sapiecha P.: Functional decomposition and its applications in design of digital circuits and machine learning. Proc. of the IASTED Int. Symposia. Applied Informatics. pp. 54-59, Innsbruck, Austria, Feb. 2001.
  35. Buciak P., Niewiadomski H., Pleban M., Selvaraj H., Sapiecha P.: The Variable Ordering for ROBDD/ROMDD-based Functional Decomposition, PDS 2001, IFAC Workshop, Gliwice, Poland 2001.
  36. Selvaraj H., Niewiadomski H., Pleban M., Sapiecha P.: Decomposition of Digital Circuits and Neural Networks, World Multiconference on Systemics, Cybernetics and Informatics, pp. 302- 307, Orlando, USA 2001.
  37. Niewiadomski H., Pleban M., Buciak P., Sapiecha P.: Dekompozycja układów cyfrowych i sieci neuronowych, Materiały IV Krajowej Konferencji Naukowej Reprogramowalne Układy Cyfrowe, pp.11-17, Szczecin, Poland, 2001.
  38. Pleban M., Niewiadomski H.: Dekompozycja funkcjonalna i jej zastosowania w syntezie logicznej i inżynierii wiedzy, XXV Krajowa Konferencja Elektroniki i Telekomunikacji Studentów i Młodych Pracowników Nauki, WAT, Warszawa 2000.

 

Notes:

  1. H. Niewiadomski, Acceptance of Protons in the TOTEM RP Detectors for LHC V6.500 Early Collision Optics (E = 5TeV, beta* = 3m), TOTEM-COMM-2009-002, 2009.
  2. H. Niewiadomski, Acceptance of Protons in the TOTEM RP Detectors for LHC V6.500 Optics of Injection Energy (E = 450 GeV, beta* = 11 m), TOTEM-COMM-2009-001, 2009.

Talks: