ALMA Band-1 (35-50GHz) receiver: first light, performance, and road to completion

Astronomical Telescopes + Instrumentation Pub Date : 2022-09-02 DOI:10.1117/12.2629766

Yau-De Huang, Yuh-Jing Hwang, Chau-Ching Chiong, Hsi-Wei Yen, P. Koch, Chi-Den Huang, Bill Liu, Cheng Lin Chen, Jwu Jiunn Tsai, Wei-Ling Hsiung, Li-Pin Chi, Chin-Ting Ho, Chao Wang, Chen Chien, Y. Chu, P. Ho, F. Kemper, O. Morata, Álvaro González, S. Iguchi, Y. Uzawa, D. Iono, H. Nagai, J. Effland, K. Saini, M. Pospieszalski, D. Henke, K. Yeung, R. Finger, V. Tapia, N. Reyes, G. Siringo, G. Marconi, R. Cabezas

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引用次数: 1

Abstract

The Atacama large millimeter/submillimeter array (ALMA) band-1 receiver covers the frequency band between 35-50 GHz. An extension of up to 52 GHz is on a best-effort basis. Covering the longest wavelengths visible with ALMA, this receiver is enabling studies of dust grain evolution in proto-planetary systems probing dust grain sizes close to 1 cm, and with multiple red-shifted molecular lines it will open up a new window in the high-redshift universe. The band-1 project has recently achieved first light and with this passed a major project milestone. We present the challenges, from initial development to prototype, to establishing the infrastructure, integration, and evaluation of 73 production receiver units, and to the final tasks to complete the project. We conclude with the initial performance and characterization of the first band-1 receivers installed on ALMA.

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ALMA Band-1 (35-50GHz)接收机:首光、性能、完工之路

阿塔卡马大型毫米/亚毫米阵列(ALMA)波段1接收机覆盖35-50 GHz频段。扩展到52 GHz是在尽最大努力的基础上。该接收器覆盖了ALMA可见的最长波长，能够研究原行星系统中尘埃颗粒的演化，探测接近1厘米的尘埃颗粒大小，并具有多条红移分子线，将为高红移宇宙打开一个新的窗口。band-1项目最近实现了首光，并通过了一个重要的项目里程碑。我们提出了挑战，从最初的开发到原型，到建立基础设施，集成和评估73个生产接收器单元，以及完成项目的最终任务。最后介绍了安装在ALMA上的第一批band-1接收机的初始性能和特性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Astronomical Telescopes + Instrumentation

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