| Foreword | |
| List of Participants | |
| The Nerd Gallery | |
| Maps and Master Plan | |
| A Golden Era for Astronomy - The Advent of CCDs and Infrared Arrays | p. 1 |
| Overview of Astronomy Arrays at Raytheon Infrared Operations (RIO) | p. 11 |
| A New Photon Counting Detector: Intensified CMOS-APS | p. 21 |
| Preliminary test measurements of the SPAD array | p. 29 |
| Preliminary Characterization of Two High-Speed, Back-Illuminated CCD Image Sensors | p. 33 |
| Broadband (200-1000 nm) Back-Illuminated CCD Imagers | p. 41 |
| Orion: A 1-5 Micron Focal Plane for the 21[superscript st] Century | p. 51 |
| Performance of 5 Micron, Molecular Beam Epitaxy HgCdTe Sensor Chip Assemblies (SCAs) for the NGST Mission and Ground-based Astronomy | p. 59 |
| Cosmic rays and other nonsense in astronomical CCD images | p. 81 |
| An Overview of CCD Development at Lawrence Berkeley National Laboratory | p. 95 |
| Scientific CMOS Pixels | p. 103 |
| Secrets of E2V Technologies CCDS (ex Marconi CCDs) | p. 115 |
| Progress in Ultra-low Noise Hybrid and Monolithic FPAs for Visible and Infrared | p. 123 |
| A Marconi CCD42-40 with Anti-Blooming - Experiences with the OSIRIS CCDs for the ROSETTA Mission | p. 131 |
| Very Large Format Back Illuminated CCDs | p. 137 |
| Compound Semiconductor Detectors, Development activities at ESA | p. 145 |
| Optical Photon-Counting STJ Activities at ESA | p. 149 |
| Silicon-on-Insulator-Based Single-Chip Image Sensors - Low-Voltage Scientific Imaging | p. 155 |
| Large Format and Scientific Detectors at Fairchild Imaging | p. 163 |
| HgCdTe Detectors for the Hubble space telescope wide field camera 3 IR Channel | p. 175 |
| CMOS Active Pixel Sensor developments at the Rutherford Appleton Laboratory | p. 183 |
| ESO's Optical detector systems in the VLT operations era | p. 197 |
| The Detector Systems of the Keck Observatory - UV to 25 microns | p. 205 |
| IR Detector Developments at ESO | p. 219 |
| Controller Developments - at the Anglo-Australian Observatory | p. 225 |
| Detector Work at the UKATC - The optical to the sub-millimetre | p. 231 |
| CCD camera systems for the GTC | p. 239 |
| Detectors at CTIO: Present Status and Future Plans | p. 247 |
| Strange Happenings in the Dungeons - A new detector group at Caltech | p. 255 |
| NOAO Observatory plans | p. 261 |
| MONSOON Image Acquisition System | p. 269 |
| Improved CCD Detectors for High Speed, Charge Exchange Spectroscopy Studies on the D III-D Tokamak | p. 279 |
| CCD wavefront sensing system for the ESO Multi-Conjugate Adaptive Optics Demonstrator (MAD) | p. 283 |
| CFHT's SkyProbe: true atmospheric attenuation measurement in the telescope field | p. 287 |
| CFHT's FlyEyes: assessing on-sky performance of the new MIT/LL CCID35 CCD curvature wavefront sensor | p. 299 |
| Ultra-clean CCD Cryostats - CCD contamination can be kept under control | p. 305 |
| The Impact of Astronomy Technologies on Chemical Analysis | p. 311 |
| A CCd based curvature wavefront sensor for adaptive optics in astronomy | p. 319 |
| Performance and results of the NAOS visible wavefront sensor | p. 325 |
| Fabry Perot Observations using a new GaAs Photon Counting System | p. 335 |
| Near IR fringe tracking for VLTI: the FINITO detection system | p. 341 |
| OSIRIS Detectors - First tests and Control System | p. 345 |
| The Optimized Cryostat for the LBC Camera | p. 349 |
| The OmegaCam Shutter - A low acceleration, impact-free device for large CCD mosaics | p. 367 |
| Ultra-deep Optical Spectroscopy with PMAS - using the Nod-and-Shuffle Technique | p. 371 |
| The Tololo All Sky Camera - TASCA | p. 379 |
| The Orthogonal Parallel Imaging Transfer Camera | p. 385 |
| Giga-pixels and Sky Surveys | p. 395 |
| The Hubble Space Telescope Wide Field Camera 3 Instrument Charge-Coupled Device Detectors - CTE Performance and Mitigation | p. 403 |
| Camera and detector development in the Space Science and Technology Department of the Rutherford Appleton Laboratory | p. 407 |
| Compact CCD Camera | p. 413 |
| The design and testing of a cryogenic pre-amplifier for the Rockwell Hawaii and Hawaii II Detector Arrays | p. 419 |
| The new generation CCd controller: first results | p. 423 |
| ISPI's software- an infrared application of the ArcVIEW system | p. 427 |
| Compact CCD guider camera for Magellan | p. 431 |
| Readout techniques for drift and low frequency noise rejection in infrared arrays | p. 435 |
| AzCam: A Windows-based CCD/CMOS/Client/Server Data Acquisition System | p. 445 |
| Upgrade of ESO's FIERA CCD Controller and PULPO subsystem | p. 449 |
| An Optimized Data Acquisition System Without Reset Anomaly for the HAWAII and HAWAII-2 Arrays | p. 453 |
| GTC Acquisition Cameras and Wavefront Sensors | p. 459 |
| A New CCD Controller at UCO/Lick Observatory | p. 463 |
| The Use of ASIC Technology in the Development of Compact, Low-Power CCD Cameras | p. 467 |
| Characterization of the Si:As Blocked Impurity Band (BIB) Detector in Keck's Long Wavelength Spectrometer, LWS | p. 481 |
| Characterizing the CCDs of the OmegaCam wide-angle camera | p. 485 |
| EMIR Hawaii-2 Detector test bench | p. 489 |
| EMIR Hawaii-2 first test results | p. 493 |
| Test results with 2Kx2K MCT arrays | p. 497 |
| The HAWAII-2 2048x2048 HgCdTe Detector Arrays | p. 501 |
| How Accurate Are QE Measurements? | p. 511 |
| The Electronic Controller of the 40 CCDs Megacam Mosaic | p. 517 |
| Design of the CRIRES 512 x 4096 pixel Aladdin InSb focal plane array detector mosaic | p. 523 |
| Performance of HAWAII-2 FPA for SUBARU Multi-Object Near-Infrared Camera and Spectrograph | p. 529 |
| Wide Field Focal Plane Arrays for UKIRT and VISTA | p. 535 |
| Fully Buttable Imagers | p. 539 |
| Mosaic Focal Plane Development | p. 547 |
| In flight Performance of the Advanced Camera for Surveys Detectors | p. 555 |
| On the Implementation and Calibrations of the Focal Plane for GAIA | p. 565 |
| Behaviour of a Raytheon IRFPA (438x270) under high energy protons | p. 573 |
| Radiation damage effects in XMM-Newton Epic MOS CCDs | p. 577 |
| 95 Million Pixel Focal Plane for Use On The Kepler Discovery Mission | p. 581 |
| L3CCDs: Fast Photon Counting for Optical Interferometry - Statistics of Photon Counting | p. 593 |
| L3CCDs: Low Readout Noise CCDs in Astronomy - Lucky Exposure Technique | p. 599 |
| Zero noise CCD - a new readout technique | p. 603 |
| First results of an L3CCD in photon counting mode | p. 611 |
| Glossary of Acronyms | p. 615 |
| The Nerd Boat | p. 625 |
| Table of Contents provided by Blackwell. All Rights Reserved. |
