Electronics design and development of Near-Infrared Imager, Spectrometer and Polarimeter

NISP, a multifaceted near-infrared instrument for the upcoming 2.5m IR telescope at MIRO Gurushikhar, Mount Abu, Rajasthan, India is being developed at PRL, Ahmedabad. NISP will have wide (FOV = 10' x 10') field imaging, moderate (R=3000) spectroscopy and imaging polarimetry operating mode...

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Veröffentlicht in:	arXiv.org 2020-12
Hauptverfasser:	Deekshya Roy Sarkar, Shah, Amish B, Singh, Alka, Pitamber Singh Patwal, Kasarla, Prashanth Kumar, Rai, Archita, Prachi Vinod Prajapati, Hitesh Kumar L Adalja, Mathur, Satya N, Naik, Sachindra, Ganesh, Shashikiran, Baliyan, Kiran S
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Schlagworte:	Application specific integrated circuits Controllers Cryogenic temperature Design Electronics Fiber optics Graphical user interface Infrared instruments Infrared spectrometers Mercury cadmium tellurides Near infrared radiation Optical components Optical fibers Physics - Instrumentation and Methods for Astrophysics Polarimeters Polarimetry Receivers & amplifiers Room temperature Sensors Servocontrol Stepping motors Subsystems Temperature
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creator	Deekshya Roy Sarkar Shah, Amish B Singh, Alka Pitamber Singh Patwal Kasarla, Prashanth Kumar Rai, Archita Prachi Vinod Prajapati Hitesh Kumar L Adalja Mathur, Satya N Naik, Sachindra Ganesh, Shashikiran Baliyan, Kiran S
description	NISP, a multifaceted near-infrared instrument for the upcoming 2.5m IR telescope at MIRO Gurushikhar, Mount Abu, Rajasthan, India is being developed at PRL, Ahmedabad. NISP will have wide (FOV = 10' x 10') field imaging, moderate (R=3000) spectroscopy and imaging polarimetry operating modes. It is designed based on 0.8 to 2.5 micron sensitive, 2048 X 2048 HgCdTe (MCT) array detector from Teledyne. Optical, Mechanical and Electronics subsystems are being designed and developed in-house at PRL. HAWAII-2RG (H2RG) detector will be mounted along with controlling SIDECAR ASIC inside LN2 filled cryogenic cooled Dewar. FPGA based controller for H2RG and ASIC will be mounted outside the Dewar at room temperature. Smart stepper motors will facilitate motion of filter wheels and optical components to realize different operating modes. Detector and ASIC temperatures are servo controlled using Lakeshore's Temperature Controller (TC) 336. Also, several cryogenic temperatures will be monitored by TC for health checking of the instrument. Detector, Motion and Temperature controllers onboard telescope will be interfaced to USB Hub and fiber-optic trans-receiver. Remote Host computer interface to remote end trans-receiver will be equipped with in-house developed GUI software to control all functionalities of NISP. Design and development aspects of NISP Electronics will be presented in this conference.
doi_str_mv	10.48550/arxiv.2012.08805
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subjects	Application specific integrated circuits Controllers Cryogenic temperature Design Electronics Fiber optics Graphical user interface Infrared instruments Infrared spectrometers Mercury cadmium tellurides Near infrared radiation Optical components Optical fibers Physics - Instrumentation and Methods for Astrophysics Polarimeters Polarimetry Receivers & amplifiers Room temperature Sensors Servocontrol Stepping motors Subsystems Temperature
title	Electronics design and development of Near-Infrared Imager, Spectrometer and Polarimeter
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