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Main Authors: Dahal, Sumit, Stevenson, Thomas R., Costen, Nicholas P., DeNigris, Nat, Glenn, Jason, Hu, Gang, Jhabvala, Christine A., Morales-Sanchez, Ricardo, Patel, Jessica B., Quijada, Manuel A., Schrock, Ian, Wang, Frederick H., Wollack, Edward J.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.10773
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author Dahal, Sumit
Stevenson, Thomas R.
Costen, Nicholas P.
DeNigris, Nat
Glenn, Jason
Hu, Gang
Jhabvala, Christine A.
Morales-Sanchez, Ricardo
Patel, Jessica B.
Quijada, Manuel A.
Schrock, Ian
Wang, Frederick H.
Wollack, Edward J.
author_facet Dahal, Sumit
Stevenson, Thomas R.
Costen, Nicholas P.
DeNigris, Nat
Glenn, Jason
Hu, Gang
Jhabvala, Christine A.
Morales-Sanchez, Ricardo
Patel, Jessica B.
Quijada, Manuel A.
Schrock, Ian
Wang, Frederick H.
Wollack, Edward J.
contents The PRobe far-Infrared Mission for Astrophysics (PRIMA) is a cryogenically cooled 1.8-m space telescope designed to address fundamental questions about the evolution of galactic ecosystems, the origins of planetary atmospheres, and the buildup of dust and metals over cosmic time. PRIMA will achieve unprecedented sensitivity in the 24 - 261 $μ$m wavelength range, enabled by background-limited kinetic inductance detectors (KIDs) cooled to 120 mK. For PRIMA's Far-InfraRed Enhanced Survey Spectrometer (FIRESS) instrument, we have developed monolithic kilopixel silicon lenslet arrays to efficiently couple incident radiation from the telescope's fore-optics onto the KID absorber elements. These three-dimensional lenslet arrays are fabricated using grayscale lithography, followed by deep reactive ion etching (DRIE), and are anti-reflection (AR) coated with a quarter-wavelength thick deposition of Parylene-C. The lenslet arrays are aligned and bonded to the KID arrays using a thin layer of epoxy through a flip-chip bonder. In this work, we report on the optimized fabrication, lens design, AR coating, and bonding processes developed for the FIRESS lenslet arrays. We characterize brassboard lenslet arrays fabricated to meet the specifications of the FIRESS low and high spectral bands, demonstrate stepped-thickness AR-coatings to achieve high efficiency across broad wavelength ranges, and present spectral transmission measurements of the AR coating and the epoxy bonding layers.
format Preprint
id arxiv_https___arxiv_org_abs_2511_10773
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Optimization of lenslet arrays for PRIMA Kinetic Inductance Detectors
Dahal, Sumit
Stevenson, Thomas R.
Costen, Nicholas P.
DeNigris, Nat
Glenn, Jason
Hu, Gang
Jhabvala, Christine A.
Morales-Sanchez, Ricardo
Patel, Jessica B.
Quijada, Manuel A.
Schrock, Ian
Wang, Frederick H.
Wollack, Edward J.
Instrumentation and Methods for Astrophysics
The PRobe far-Infrared Mission for Astrophysics (PRIMA) is a cryogenically cooled 1.8-m space telescope designed to address fundamental questions about the evolution of galactic ecosystems, the origins of planetary atmospheres, and the buildup of dust and metals over cosmic time. PRIMA will achieve unprecedented sensitivity in the 24 - 261 $μ$m wavelength range, enabled by background-limited kinetic inductance detectors (KIDs) cooled to 120 mK. For PRIMA's Far-InfraRed Enhanced Survey Spectrometer (FIRESS) instrument, we have developed monolithic kilopixel silicon lenslet arrays to efficiently couple incident radiation from the telescope's fore-optics onto the KID absorber elements. These three-dimensional lenslet arrays are fabricated using grayscale lithography, followed by deep reactive ion etching (DRIE), and are anti-reflection (AR) coated with a quarter-wavelength thick deposition of Parylene-C. The lenslet arrays are aligned and bonded to the KID arrays using a thin layer of epoxy through a flip-chip bonder. In this work, we report on the optimized fabrication, lens design, AR coating, and bonding processes developed for the FIRESS lenslet arrays. We characterize brassboard lenslet arrays fabricated to meet the specifications of the FIRESS low and high spectral bands, demonstrate stepped-thickness AR-coatings to achieve high efficiency across broad wavelength ranges, and present spectral transmission measurements of the AR coating and the epoxy bonding layers.
title Optimization of lenslet arrays for PRIMA Kinetic Inductance Detectors
topic Instrumentation and Methods for Astrophysics
url https://arxiv.org/abs/2511.10773