论文标题
探测器系统工程
Detector Systems Engineering for Extremely Large Instruments
论文作者
论文摘要
ESO ELT第一光仪器,Harmoni,Micado和Metis的科学探测器系统将需要27个科学探测器:17 $ 2.5 $μ$ M截止H4RG-15探测器,四个4K x 4K x 4K 231-84 CCD,五5.3 $ $ m c $ m cutoff h2rg tectors tectors and One cuttorter and One Cuttertor和One 13.5 $ 13.5 $μ5 $μ5 $μ5 $μ5 $μ5 $μ。这个具有挑战性的科学探测器系统开发计划涵盖了从设计和生产最先进的探测器控制和读数电子设备到在实验室中开发新的探测器特征技术到性能建模和最终系统验证的一切。我们简要地报告了这些探测器系统和开发的当前设计,以实现ELT仪器的具有挑战性的科学绩效目标。
The scientific detector systems for the ESO ELT first-light instruments, HARMONI, MICADO, and METIS, together will require 27 science detectors: seventeen 2.5 $μ$m cutoff H4RG-15 detectors, four 4K x 4K 231-84 CCDs, five 5.3 $μ$m cutoff H2RG detectors, and one 13.5 $μ$m cutoff GEOSNAP detector. This challenging program of scientific detector system development covers everything from designing and producing state-of-the-art detector control and readout electronics, to developing new detector characterization techniques in the lab, to performance modeling and final system verification. We report briefly on the current design of these detector systems and developments underway to meet the challenging scientific performance goals of the ELT instruments.
