| |
| Calorimetry Overview |
1 |
| Calorimetry: A (Biased) Historical Introduction | 3 |
| P. Sonderegger |
| Calorimetry with Crystals | 19 |
| E. Longo |
| Cryogenic calorimeters in astro and particle physics | 32 |
| K. Pretzl |
| |
| Low and Medium Energy Calorimetry |
61 |
| Convener's report |
63 |
| F. Fabbri |
| Review: Some aspects of Low- and medium-energy calorimetry |
* |
| S. Bertolucci |
| New crystals and readout for low energy Calorimetry |
65 |
| S. Tavernier |
| The KLOE lead-scintillating fibres electromagnetic calorimeter
for detecting low energy particles at DAPHNE |
73 |
| A. Di Domenico |
| Energy Calibration of the CsI Crystals of the Neutral Meson
Spectrometer (NMS) using Monoenergetic $\pi^0$ from
the Decay of Stopped K+ |
81 |
| H. Juengst |
| A Superconducting Transition Radiation Detector |
89 |
| T. Girard |
| Liquid Xenon for detecting low and intermediate-energy gamma-rays |
97 |
| E. Conti |
| Medium energy Calorimetry at SDN: Techniques and
Performance on Physics |
105 |
| Z. K. Silagadze |
| |
| Ionization Calorimetry |
121 |
| Convener's report |
123 |
| B. Mansoulie |
| The Uranium Hadronic Calorimeter of L3 |
125 |
| A. Klimentov |
| Space charge in ionization detectors and the NA48 Calorimeter |
136 |
| S. Palestini |
| The DZero calorimetry upgrade |
147 |
| G. Bernardi |
| The ATLAS barrel presample construction and tests |
155 |
| J.Y Hostachy |
| The ATLAS e.m. barrel Calorimeter construction and quality
measurements |
161 |
| N. Massol |
| The ATLAS e.m. end-cap Calorimeter construction and tests |
167 |
| J. Troconiz |
| Performance of the ATLAS Hadronic end-cap Calorimeter |
174 |
| P. Schacht |
| Testbeam results for the ATLAS forward Calorimeter |
184 |
| P. Loch |
| |
| Calorimetry with Crystals |
193 |
| Convener's report |
195 |
| R. Y. Zhu |
| CsI(Tl) Calorimeter for BELLE |
197 |
| B. G. Cheon |
| Performance of BGO EFC for BELLE |
206 |
| K. Ueno |
| PbF2 Calorimeter for MAMI |
* |
| F. Maas |
| Performance of L3 BGO ECAL |
212 |
| J. Fay |
| Experimental evidence of infrared scintillation
in crystals |
220 |
| E. Conti |
| Crystal Technologies for Linear Collider |
226 |
| R. Y. Zhu |
| A Small Compact PbWO ECAL for ZEUS |
234 |
| U. Holm |
| CMS PbWO4 ECAL |
241 |
| P. Bloch |
| Progress of CMS PbWO4 Crystals |
250 |
| M. Diemoz |
| CMS ECAL Construction and Quality |
259 |
| E. Auffray |
| Mechanical Design for CMS Barrel |
266 |
| C. Gargiulo |
| Precise temperature regulation |
274 |
| P. Baillon |
| |
| Calorimetry in ``Hot'' Physics |
285 |
| Convener's report |
287 |
| M. Pimenta |
| Calorimetry at High Energy e+e- collider:
Experience from LEP II |
289 |
| O. Callot |
| Gamma Gamma (Gamma) Final states at LEP |
299 |
| P. Goncalves |
| HERA Collider Physics and Calorimetry |
306 |
| R. Yoshida |
| Calorimetry in Top Quark Physics |
* |
| P. Sinervo |
| Optimizing Calorimeters to Search for Supersymmetry |
318 |
| Kaushik De |
| |
| Calorimetry for Hadrons and Jets with Cerenkov and
Organic Scintillators |
331 |
| Convener's report |
333 |
| A. Musso |
| Review: Cerenkov calorimetry |
335 |
| R. Wigmans |
| The Zero Degree Calorimeters for the ALICE experiment |
362 |
| M. Gallio |
| Precision Measurements of Particle Masses using Jets at LEP2 |
370 |
| J. Ward |
| Results from an expanded combined test of an e.m. Liquid
Argon Calorimeter with a Hadronic Scintillating-Tile Calorimeter
for the ATLAS Experiment |
380 |
| M. Cobal |
| A weighting technique to improve the energyresolution of the
ATLAS Tilecal hadronic calorimeter |
386 |
| B. Di Girolamo |
| CMS Hadron calorimeter and its physics capability |
394 |
| W. Wu |
| |
| Calibration and Monitoring |
405 |
| Convener's report |
407 |
| A. Henriques |
| The HERA-b ECAL Monitoring System and Calibration procedures |
411 |
| I. Matchikhilian |
| Performance of the Pb/Scifi Calorimeter system in the BNL Muon
g-2 experiment |
* |
| C. Polly |
| Calibration of L3 BGO Electromagnetic Calorimeter |
417 |
| M. Gataullin |
| The Monitoring System for the CMS Electromagnetic Calorimeter |
423 |
| J. Rander |
| H1 Liquid Argon Calorimeter Energy Scale Progress |
433 |
| J. Naumann |
| Recent improvements in the Jet energy scale determination at D0 |
439 |
| K. Frame |
| Calibration of the ATLAS Liquid Argon Electromagnetic
Calorimeter |
447 |
| L. Serin |
| Calibration and Monitoring of the Tilecal Calorimeter with
the 137Cs source and muons |
453 |
| M. J. Varanda |
| |
| Calorimetry with Organic Scintillators |
461 |
| Review: Calorimetry using Organic Scintillators. "A Sideways
Perspective" |
463 |
| J. Proudfoot |
| The Tilecal calorimeter for ATLAS |
474 |
| A. Gomes |
| Hadronic Shower Development in Iron-Scintillator Tile
Calorimetry |
480 |
| I. Koultchitski |
| The Compact Muon Solenoid (CMS) Hadron Calorimeter |
491 |
| V. Hagopian |
| Present status of calorimetry at ZEUS |
499 |
| A. Pellegrino |
| The Forward Plug Calorimeter for the ZEUS experiment at HERA |
505 |
| G. Lopez |
| HERA-B Electromagnetic Calorimeter |
511 |
| S. Shuvalov |
| Test Beam results for a longitudinal segmented e.m. Calorimeter |
518 |
| M. Paganoni |
| The outer em calorimeter of FOCUS at Fermilab |
527 |
| F. Fabbri |
| Status of development of preshower detector for LHCb experiment |
542 |
| E. Guschin |
| The H1 VLQ-Spectrometer - Track-Cluster Matching in the sub-mm region |
548 |
| A. Stellberger |
| |
| Electronics and DAQ |
555 |
| Review: Front-End Electronics in Fast Calorimetry |
557 |
| C. de la Taille |
| Cold electronics for the liquid Argon Hadronic endcap of ATLAS |
570 |
| L. Kurchaninov |
| SMQIE challenges associated with a low frequency charge integrator
and digitizer for the CDF II Calorimeter |
576 |
| J. Hoff |
| Upgrade of the H1 Calorimeter Electronics and Trigger |
583 |
| R. Maracek |
| CDF level 1 Calorimeter Trigger |
591 |
| P. Amaral |
| First results with the pretrigger system of HERA-B experiment |
598 |
| G. Benedetto |
| Recent development in the CMS Calorimeter trigger electronics
and DAQ system |
605 |
| T. Monteiro |
| The electromagnetic Calorimeter DAQ and Monitor system of
HERA-B |
611 |
| D. Galli |
| A remote neural discriminator for the scintillating Tile Calorimeter
of ATLAS |
618 |
| J. M. Seixas |
| |
| Radiation Hardness |
625 |
| Chairman's report | 627 |
| P. Puzo |
| Review: Radiation damage of plastic scintillators and consequences
for calorimetry |
629 |
| U. Holm |
| Radiation hardness studies with a movable $^{60}$Co sourceat the ZEUS
detector |
639 |
| K. Wick |
| Radiation damage studies of WLS fibres for the TILECAL |
647 |
| M. David |
| Radiation hardness studies of components of the ATLAS forward
and Hadronic End Cap calorimeters at Dubna |
653 |
| C. Leroy |
| |
| Medical Applications |
661 |
| Convener's report |
663 |
| C. Leroy |
| Review: New Scintillating Crystals for Medical Imaging |
667 |
| P. Lecoq |
| Positron Emission Tomography Instrumentation: Development of a
Detector based on Liquid Xenon |
675 |
| I. Lopes |
| Monte Carlo application in radiation dosimetry and radiotherapy |
681 |
| C. Ma |
| Monte Carlo dose calculations in a phantom irradiated with
typical beams of radiotherapy |
693 |
| G. Mora |
| Monte Carlo simulation of a linear accelerator treatment head EGS4
and MCNP-4B intercomparison |
697 |
| L. Peralta |
| |
| Simulation of Calorimeter performance |
703 |
| Geant4's Kernel Capabilities in its Production Phase |
705 |
| J. Apostolakis |
| On Hadronic Shower Simulation |
711 |
| J. P. Wellisch |
| Performance of the ATLAS Hadronic End-cap Calorimeter |
722 |
| A. Kiryunin |
| Physics Potential and Performance of the ATLAS Electromagnetic
Calorimeter |
728 |
| J. B. Hansen |
| Measurement of the photon direction in the ATLAS Electromagnetic
Calorimeter with the Help of Neutral Networks |
737 |
| B. Mansoulie |
| Simulation of Calorimeter Performance: LHC-b Calorimeters |
* |
| I. Korolko |
| Efficiency Calibration of Gamma-Ray detectors by Monte Carlo
Methods |
745 |
| B. Braizinha |
| |
| Neutrinos and Calorimetry |
751 |
| Review: Calorimetry in Neutrino Physics |
* |
| A. Para |
| Measurement of the 187Re Beta decay Spectrum with a
Geometrically-metastable Superconducting Detector |
753 |
| M. R. Gomes |
| BOREXINO - A new calorimeter for low energy solar neutrinos |
759 |
| J. Maneira |
| The ICARUS LAr TPC: High Precision Imaging and Calorimetry
for Large Underground Detectors |
* |
| C. Montanari |
| Performance of the CHORUS calorimeter with neutrino events |
765 |
| S. Buontempo |
| |
| Calorimeters for Astrophysics |
775 |
| Chairman's report |
777 |
| J. Maneira |
| Review: Calorimetry for Cosmic rays in space |
781 |
| P. Spillantini |
| A Thin Sampling Calorimeter for Cosmic Ray Spectral measurements
to 10^15 eV (ICA) |
795 |
| T. Parnell |
| A Warm-Liquid Calorimeter for Cosmic-Ray Hadrons |
803 |
| J. Milke |
| Thinning of High-Energy Cosmic-Ray Air-Showers |
809 |
| M. Kobal |
| Large Mass SDD's for Dark Matter Searches |
817 |
| J. Collar |
| |
| Calorimetry: Present and Future |
825 |
| Particle Physics Contribution to the Elimination of Nuclear Waste |
827 |
| J. P. Revol |
| Calorimeters in the LHC Experimental Program |
* |
| J. Engelen |
| Gran Sasso Laboratory: "Physics beyond the Standard Model" |
* |
| A. Bettini |
| Observation of neutrinos at Super-Kamiokande |
839 |
| Y. Fukuda |
| |
| Conference Pictures |
851 |
| List of Participants |
861 |
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