Dr. Bradley J. Dober Profile

Dr. Bradley J. Dober

NRC Postdoc

SPIE Involvement:

Author

Publications (33)

Proceedings Article | 1 August 2021 Presentation

NIST microcalorimeter arrays for the hard x-ray and γ-ray astronomy

Md. Arman Hossen, D. Becker, D. Bennett, B. Dober, J. Fowler, J. Gard, E. Gau, J. Hays-Wehle, G. Hilton, F. Kislat, H. Krawczynski, B. Mates, J. Nagy, C. Reintsema, D. Schmidt, D. Swetz, J. Ullom, L. Vale, T. Okajima

Proceedings Volume 11838, 118380X (2021) https://doi.org/10.1117/12.2594652

KEYWORDS: X-ray astronomy, Hard x-rays, Sensors, Astronomy, Microwave radiation, X-rays, X-ray detectors, Tin, Resonators, Prototyping

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Proceedings Article | 22 January 2021 Poster + Paper

Measurements of AlMn TES bolometers well described by simple electrothermal model

Samantha Walker, Jason Austermann, James Beall, Bradley Dober, Shannon Duff, Gene Hilton, Johannes Hubmayr, Joel Ullom, Jeffrey Van Lanen, Michael Vissers

Proceedings Volume 11453, 1145326 (2021) https://doi.org/10.1117/12.2576274

KEYWORDS: Bolometers, Sensors, Resistance, Radon, Polarization, Measurement devices, Instrument modeling, Temperature metrology, Telescopes, Technetium

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Proceedings Article | 22 December 2020 Poster + Paper

The design of the Ali CMB Polarization Telescope receiver

M. Salatino, J. Austermann, K. Thompson, P. A. Ade, X. Bai, J. Beall, D. Becker, Y. Cai, Z. Chang, D. Chen, J. Connors, P. Chen, B. Dober, J. Delabrouille, S. Duff, G. Gao, R. Givhan, S. Ghosh, G. Hilton, B. Hu, J. Hubmayr, E. Karpel, C.-L. Kuo, H. Li, M. Li, S.-Y. Li, X. Li, M. Link, Y. Li, H. Liu, L. Liu, Y. Liu, F. Lu, T. Lucas, X. Lu, J. A. Mates, J. Mathewson, P. Mauskopf, J. Meinke, J. Montana-Lopez, J. Shi, A. Sinclair, R. Stephenson, W. Sun, Y.‐H. Tseng, C. Tucker, J. Ullom, L. Vale, J. van Lanen, M. Vissers, S. Walker, B. Wang, G. Wang, J. Wang, E. Weeks, Di Wu, Y.-H. Wu, J. Xia, H. Xu, J. Yao, Y. Yao, K. W. Yoon, B. Yue, H. Zhai, A. Zhang, Laiyu Zhang, Le Zhang, P. Zhang, T. Zhang, Xinmin Zhang, Yifei Zhang, Yongjie Zhang, G.-B. Zhao, W. Zhao

Proceedings Volume 11453, 114532A (2020) https://doi.org/10.1117/12.2560709

KEYWORDS: Receivers, Telescopes, Alternate lighting of surfaces, Polarization, Optical instrument design, Sensors, Multiplexing, Staring arrays, Polarimetry, Refractor telescopes

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Proceedings Article | 18 December 2020 Poster + Presentation + Paper

Simons Observatory Small Aperture Telescope overview

Kenji Kiuchi, Shunsuke Adachi, Aamir Ali, Kam Arnold, Peter Ashton, Jason Austermann, Andrew Bazako, James Beall, Yuji Chinone, Gabriele Coppi, Kevin Crowley, Simon Dicker, Bradley Dober, Shannon Duff, Giulio Fabbian, Nicholas Galitzki, Joseph Golec, Jon Gudmundsson, Kathleen Harrington, Masaya Hasegawa, Makoto Hattori, Charles Hill, Shuay-Pwu Patty Ho, Johannes Hubmayr, Bradley Johnson, Daisuke Kaneko, Nobuhiko Katayama, Brian Keating, Akito Kusaka, Jack Lashner, Adrian Lee, Frederick Matsuda, Heather McCarrick, Masaaki Murata, Federico Nati, Yume Nishinomiya, Lyman Page, Mayuri Sathyanarayana Rao, Christian Reichardt, Kana Sakaguri, Yuki Sakurai, Joseph Sibert, Jacob Spisak, Osamu Tajima, Grant Teply, Tomoki Terasaki, Tran Tsan, Samantha Walker, Edward Wollack, Zhilei Xu, Kyohei Yamada, Mario Zannoni, Ningfeng Zhu

Proceedings Volume 11445, 114457L (2020) https://doi.org/10.1117/12.2562016

KEYWORDS: Telescopes, Observatories, Polarization, Cryogenics, Atmospheric optics, Microwave radiation, Sensors, Bolometers, Singular optics, Optical systems

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Proceedings Article | 15 December 2020 Poster + Paper

CCAT-prime: Designs and status of the first light 280 GHz MKID array and mod-cam receiver

Cody Duell, Eve Vavagiakis, Jason Austermann, Scott Chapman, Steve Choi, Nicholas Cothard, Brad Dober, Patricio Gallardo, Jiansong Gao, Christopher Groppi, Terry Herter, Gordon Stacey, Zachary Huber, Johannes Hubmayr, Doug Johnstone, Yaqiong Li, Philip Mauskopf, Jeff McMahon, Michael Niemack, Thomas Nikola, Kayla Rossi, Sara Simon, Adrian Sinclair, Michael Vissers, Jordan Wheeler, Bugao Zou

Proceedings Volume 11453, 114531F (2020) https://doi.org/10.1117/12.2562757

KEYWORDS: Sensors, Microwave radiation, Detector arrays, Telescopes, Galaxy groups and clusters, Inductance, Multiplexing

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Proceedings Article | 14 December 2020 Presentation + Paper

Assembly development for the Simons Observatory focal plane readout module

Erin Healy, Aamir Ali, Kam Arnold, Jason Austermann, James Beall, Sarah Marie Bruno, Steve Choi, Jake Connors, Nicholas Cothard, Bradley Dober, Shannon Duff, Nicholas Galitzki, Gene Hilton, Shuay-Pwu Patty Ho, Johannes Hubmayr, Bradley Johnson, Yaqiong Li, Michael Link, Tammy Lucas, Heather McCarrick, Michael Niemack, Maximiliano Silva-Feaver, Rita Sonka, Suzanne Staggs, Eve Vavagiakis, Michael Vissers, Yuhan Wang, Edward Wollack, Zhilei Xu, Benjamin Westbrook, Kaiwen Zheng

Proceedings Volume 11453, 1145317 (2020) https://doi.org/10.1117/12.2561743

KEYWORDS: Observatories, Microwave radiation, Telescopes, Sensors, Bolometers, Multiplexing, Electronics, Receivers, Antennas, Transducers

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Proceedings Article | 14 December 2020 Presentation + Paper

The Simons Observatory: the Large Aperture Telescope Receiver (LATR) integration and validation results

Zhilei Xu, Tanay Bhandarkar, Gabriele Coppi, Anna Kofman, John Orlowski-Scherer, Ningfeng Zhu, Aamir Ali, Kam Arnold, Jason Austermann, Steve Choi, Jake Connors, Nicholas Cothard, Mark Devlin, Simon Dicker, Bradley Dober, Shannon Duff, Giulio Fabbian, Nicholas Galitzki, Saianeesh Haridas, Katheleen Harrington, Erin Healy, Shuay-Pwu Patty Ho, Johannes Hubmayr, Jeffrey Iuliano, Jack Lashner, Yaqiong Li, Michele Limon, Brian Koopman, Heather McCarrick, Jenna Moore, Federico Nati, Michael Niemack, Christian Reichardt, Karen Sarmiento, Joseph Seibert, Maximiliano Silva-Feaver, Rita Sonka, Suzanne Staggs, Robert Thornton, Eve Vavagiakis, Michael Vissers, Samantha Walker, Yuhan Wang, Edward Wollack, Kaiwen Zheng

Proceedings Volume 11453, 1145315 (2020) https://doi.org/10.1117/12.2576151

KEYWORDS: Observatories, Telescopes, Receivers, Tellurium, Cryogenics, Sensors, Optical instrument design, Optical alignment, Microwave radiation, Integrated optics

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Proceedings Article | 13 December 2020 Poster + Paper

Comparing complex impedance and bias step measurements of Simons Observatory transition edge sensors

Nicholas Cothard, Aamir Ali, Jason Austermann, Steve Choi, Kevin Crowley, Bradley Dober, Cody Duell, Shannon Duff, Patricio Gallardo, Gene Hilton, Shuay-Pwu Patty Ho, Johannes Hubmayr, Michael Link, Michael Niemack, Rita Sonka, Suzanne Staggs, Eve Vavagiakis, Edward Wollack, Zhilei Xu

Proceedings Volume 11453, 1145325 (2020) https://doi.org/10.1117/12.2575912

KEYWORDS: Sensors, Observatories, Bolometers, Thermal effects, Microwave radiation, Telescopes, Superconductors, Aluminum, Manganese, Calibration

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Proceedings Article | 13 December 2020 Poster + Presentation + Paper

The Balloon-borne Large Aperture Submillimeter Telescope Observatory

Ian Lowe, Gabriele Coppi, Peter A. Ade, Peter Ashton, Jason Austermann, James Beall, Susan Clark, Erin Cox, Mark Devlin, Simon Dicker, Bradley Dober, Valentina Fanfani, Laura Fissel, Nicholas Galitzki, Jiangsong Gao, Brandon Hensley, Johannes Hubmayr, Steven Li, Zhi-yun Li, Nathan Lourie, Peter Martin, Philip Mauskopf, Federico Nati, Giles Novak, Giampaolo Pisano, Javier Romualdez, Adrian Sinclair, Juan Soler, Carole Tucker, Michael Vissers, Jordan Wheeler, Paul Williams, Mario Zannoni

Proceedings Volume 11445, 114457A (2020) https://doi.org/10.1117/12.2576146

KEYWORDS: Observatories, Submillimeter telescopes, Optical instrument design, Telescopes, Sensors, Receivers, Pollution control, Microwave radiation, Magnetism, Inductance

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Proceedings Article | 13 December 2020 Presentation

Millimeter-wave kinetic inductance detectors with no 1/f noise

Johannes Hubmayr, Jason Austermann, Bradley Dober, Gene Hilton, Jiansong Gao, Maxime Malnou, Joel Ullom, Michael Vissers, Jordan Wheeler

Proceedings Volume 11453, 114531D (2020) https://doi.org/10.1117/12.2562870

KEYWORDS: Inductance, Sensors, Microwave radiation, Interference (communication), Signal detection, Photonic devices, Superconductors, Resonators, Tin, Aluminum

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Proceedings Article | 13 December 2020 Presentation

TolTEC focal plane arrays: design, characterization, and performance of kilopixel MKID focal planes

Jason Austermann, Yvonne Ban, James Beall, Marc Berthoud, Reid Contente, Natalie DeNigris, Bradley Dober, Jiansong Gao, Gene Hilton, Johannes Hubmayr, Steve Kuczarski, Dennis Lee, Emily Lunde, Zhiyuan Ma, Philip Mauskopf, Michael McCrackan, Christopher McKenney, Jeffrey McMahon, Giles Novak, Sophia Abi-Saad, Sara Simon, Kamal Souccar, Joel Ullom, Eric Van Camp, Jeff Van Lanen, Michael Vissers, Grant Wilson

Proceedings Volume 11453, 114530A (2020) https://doi.org/10.1117/12.2562086

KEYWORDS: Staring arrays, Telescopes, Wafer-level optics, Silicon, Resonators, Millimeter wave imaging, Polarimetry, Optical filters, Microwave radiation, Inductance

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Proceedings Article | 13 December 2020 Presentation + Paper

Characterization, deployment, and in-flight performance of the BLAST-TNG cryogenic receiver

Ian Lowe, Peter A. R. Ade, Peter Ashton, Jason Austermann, Gabriele Coppi, Erin Cox, Mark Devlin, Bradley Dober, Valentina Fanfani, Laura Fissel, Nicholas Galitzki, Jiansong Gao, Samuel Gordon, Christopher Groppi, Gene Hilton, Johannes Hubmayr, Jeffrey Klein, Dale Li, Nathan Lourie, Hamdi Mani, Philip Mauskopf, Christopher McKenney, Federico Nati, Giles Novak, Giampaolo Pisano, Javier Romualdez, Juan Soler, Adrian Sinclair, Carole Tucker, Joel Ullom, Michael Vissers, Caleb Wheeler, Paul Williams

Proceedings Volume 11453, 1145304 (2020) https://doi.org/10.1117/12.2560854

KEYWORDS: Cryogenics, Sensors, Receivers, Signal processing, Computing systems, Signal detection, Submillimeter telescopes, Magnetism, Microwave radiation, Inductance

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Proceedings Article | 13 December 2020 Presentation + Paper

In-flight performance of the BLAST-TNG telescope platform

Gabriele Coppi, Peter A. Ade, Peter Ashton, Jason Austermann, Erin Cox, Mark Devlin, Bradley Dober, Valentina Fanfani, Laura Fissel, Nicholas Galitzki, Jiansong Gao, Samuel Gordon, Christopher Groppi, Gene Hilton, Johannes Hubmayr, Jeffrey Klein, Dale Li, Ian Lowe, Nathan Lourie, Christopher McKinney, Hamdi Mani, Philip Mauskopf, Federico Nati, Giles Novak, Giampaolo Pisano, Javier Romualdez, Adrian Sinclair, Juan Soler, Carole Tucker, Joel Ullom, Michael Vissers, Caleb Wheeler, Paul Williams

Proceedings Volume 11445, 1144526 (2020) https://doi.org/10.1117/12.2560849

KEYWORDS: Telescopes, Optical instrument design, Magnetism, Submillimeter telescopes, Mirrors, Spatial resolution, Clouds, Thermography

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Proceedings Article | 13 December 2020 Presentation + Paper

The TolTEC camera: an overview of the instrument and in-lab testing results

Grant Wilson, Sophia Abi-Saad, Peter Ade, Itziar Aretxaga, Jason Austermann, Yvonne Ban, Joseph Bardin, James Beall, Marc Berthoud, Sean Bryan, John Bussan, Edgar Castillo, Miguel Chavez, Reid Contente, N. DeNigris, Bradley Dober, Miranda Eiben, Daniel Ferrusca, Laura Fissel, Jiansong Gao, Joseph Golec, Robert Golina, Arturo Gomez, Sam Gordon, Robert Gutermuth, Gene Hilton, Mohsen Hosseini, Johannes Hubmayr, David Hughes, Stephen Kuczarski, Dennis Lee, Emily Lunde, Zhiyuan Ma, Hamdi Mani, Philip Mauskopf, Michael McCrackan, Christopher McKenney, Jeffrey McMahon, Giles Novak, Giampaolo Pisano, Alexandra Pope, Amy Ralston, Ivan Rodriguez, David Sánchez-Argüelles, F. Peter Schloerb, Sara Simon, Adrian Sinclair, Kamal Souccar, Ana Torres Campos, Carole Tucker, Joel Ullom, Eric Van Camp, Jeff Van Lanen, Miguel Velazquez, Michael Vissers, Eric Weeks, Min Yun

Proceedings Volume 11453, 1145302 (2020) https://doi.org/10.1117/12.2562331

KEYWORDS: Cameras, Sensors, Unattended ground sensors, Cryogenics, Black bodies, Optical testing, Polarimetry, Telescopes, Inductance, Sensor performance

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Proceedings Article | 13 December 2020 Presentation

Demonstration of a microwave SQUID multiplexer with pre-amplification from a kinetic inductance traveling-wave parametric amplifier

Michael Vissers, Maxime Malnou, Jiansong Gao, Johannes Hubmayr, Jordan Wheeler, J.A.B. Mates, Brad Dober, Gene Hilton, Leila Vale, Joel Ullom

Proceedings Volume 11453, 114530Z (2020) https://doi.org/10.1117/12.2562877

KEYWORDS: Microwave radiation, Multiplexers, Inductance, Optical amplifiers, Sensors, Observatories, Detector development, Cryogenics, Detector arrays, Optical lithography

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Proceedings Article | 31 July 2018 Presentation + Paper

The Simons Observatory: instrument overview

Nicholas Galitzki, Aamir Ali, Kam Arnold, Peter Ashton, Jason Austermann, Carlo Baccigalupi, Taylor Baildon, Darcy Barron, James Beall, Shawn Beckman, Sarah Marie Bruno, Sean Bryan, Paolo Calisse, Grace Chesmore, Yuji Chinone, Steve Choi, Gabriele Coppi, Kevin Crowley, Ari Cukierman, Mark Devlin, Simon Dicker, Bradley Dober, Shannon Duff, Jo Dunkley, Giulio Fabbian, Patricio Gallardo, Martina Gerbino, Neil Goeckner-Wald, Joseph Golec, Jon Gudmundsson, Erin Healy, Shawn Henderson, Charles Hill, Gene Hilton, Shuay-Pwu Patty Ho, Logan Howe, Johannes Hubmayr, Oliver Jeong, Brian Keating, Brian Koopman, Kenji Kiuchi, Akito Kusaka, Jacob Lashner, Adrian Lee, Yaqiong Li, Michele Limon, Marius Lungu, Frederick Matsuda, Philip Mauskopf, Andrew May, Nialh McCallum, Jeff McMahon, Federico Nati, Michael Niemack, John Orlowski-Scherer, Stephen Parshley, Lucio Piccirillo, Mayuri Sathyanarayana Rao, Christopher Raum, Maria Salatino, Joseph Seibert, Carlos Sierra, Max Silva-Feaver, Sara Simon, Suzanne Staggs, Jason Stevens, Aritoki Suzuki, Grant Teply, Robert Thornton, Calvin Tsai, Joel Ullom, Eve Vavagiakis, Michael Vissers, Benjamin Westbrook, Edward Wollack, Zhilei Xu, Ningfeng Zhu

Proceedings Volume 10708, 1070804 (2018) https://doi.org/10.1117/12.2312985

KEYWORDS: Sensors, Receivers, Telescopes, Cryogenics, Physics, Wafer-level optics, Semiconducting wafers, Lenses, Staring arrays, Observatories

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Proceedings Article | 18 July 2018 Paper

Highly-multiplexed microwave SQUID readout using the SLAC Microresonator Radio Frequency (SMuRF) electronics for future CMB and sub-millimeter surveys

Shawn Henderson, Zeeshan Ahmed, Jason Austermann, Daniel Becker, Douglas Bennett, David Brown, Saptarshi Chaudhuri, Hsiao-Mei Sherry Cho, John D'Ewart, Bradley Dober, Shannon Duff, John Dusatko, Sofia Fatigoni, Josef Frisch, Jonathon Gard, Mark Halpern, Gene Hilton, Johannes Hubmayr, Kent Irwin, Ethan Karpel, Sarah Kernasovskiy, Stephen Kuenstner, Chao-Lin Kuo, Dale Li, John A. Mates, Carl Reintsema, Stephen Smith, Joel Ullom, Leila Vale, Daniel Van Winkle, Michael Vissers, Cyndia Yu

Proceedings Volume 10708, 1070819 (2018) https://doi.org/10.1117/12.2314435

KEYWORDS: Resonators, Multiplexers, Microwave radiation, Cryogenics, Multiplexing, Electronics, Sensors, Field programmable gate arrays, Amplifiers

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The next generation of cryogenic CMB and submillimeter cameras under development require densely instrumented sensor arrays to meet their science goals. The readout of large numbers (~10,000-100,000 per camera) of sub-Kelvin sensors, for instance as proposed for the CMB-S4 experiment, will require substantial improvements in cold and warm readout techniques. To reduce the readout cost per sensor and integration complexity, efforts are presently focused on achieving higher multiplexing density while maintaining readout noise subdominant to intrinsic detector noise and presenting manageable thermal loads. Highly-multiplexed cold readout technologies in active development include Microwave Kinetic Inductance Sensors (MKIDs) and microwave rf-SQUIDs. Both exploit the high quality factors of superconducting microwave resonators to densely channelize sub-Kelvin sensors into the bandwidth of a microwave transmission line. In the case of microwave SQUID multiplexing, arrays of transition-edge sensors (TES) are multiplexed by coupling each TES to its own superconducting microwave resonator through an rf-SQUID. We present advancements in the development of a new warm readout system for microwave SQUID multiplexing, the SLAC Superconducting Microresonator RF electronics, or SMuRF, by adapting SLAC National Accelerator Laboratory's Advanced Telecommunications Computing Architecture (ATCA) FPGA Common Platform. SMuRF aims to read out 4000 microwave SQUID channels between 4 and 8 GHz per RF line. Each compact SMuRF system is built onto a single ATCA carrier blade. Daughter boards on the blade implement RF frequency-division multiplexing using FPGAs, fast DACs and ADCs, and an analog up- and down-conversion chain. The system reads out changes in flux in each resonator-coupled rf-SQUID by monitoring the change in the transmitted amplitude and frequency of RF tones produced at each resonator's fundamental frequency. The SMuRF system is unique in its ability to track each tone, minimizing the total RF power required to readout each resonator, thereby significantly reducing the linearity requirements on the cold and warm readout. Here, we present measurements of the readout noise and linearity of the first full SMuRF system, including a demonstration of closed-loop tone tracking on a 528 channel cryogenic microwave SQUID multiplexer. SMuRF is being explored as a potential readout solution for a number of future CMB projects including Simons Observatory, BICEP Array, CCAT-prime, Ali-CPT, and CMB-S4. In addition, parallel development of the platform is underway to adapt SMuRF to read out both MKID and fast X-ray TES calorimeter arrays.

Proceedings Article | 10 July 2018 Presentation

Characterization of polarization-sensitive MKID arrays to be deployed in BLAST-TNG (Conference Presentation)

Michael Vissers, Jay Austermann, Brad Dober, Gene Hilton, Johannes Hubmayr, Dale Li, Phil Mauskopf, Chris McKenney, Joel Ullom

Proceedings Volume 10708, 107080X (2018) https://doi.org/10.1117/12.2314205

KEYWORDS: Sensors, Imaging arrays, Photon polarization, Microwave radiation, Image resolution, Spatial resolution, Polarization, Space telescopes, Silicon, Inductance

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Microwave Kinetic Inductance Detectors (MKIDs) have held promise as the focal plane sensing elements in large-format imaging arrays for over a decade and have now found application in several ground-based instruments. In this presentation, we discuss the first implementation of MKIDs for a suborbital instrument in the Balloon-borne Large Aperture Submillimeter Telescope – The Next Generation (BLAST-TNG), a suborbital imaging array designed to study the role magnetic fields play in star formation and bridge the angular scales between Planck’s low resolution all-sky maps and ALMA’s ultra-high resolution narrow fields. BLAST-TNG is scheduled to launch from Antarctica in December 2018. This experiment will utilize 8 times as many polarization sensitive detectors and will have 16 times greater mapping speed compared to its predecessor BLASTpol. This will also be a demonstration for future MKID instruments for ground based telescopes, e.g. TolTEC arrays on the LMT, as well as proposed space based missions. We have built three, large-format MKID arrays for BLAST-TNG. Each monolithic 100mm diameter array is sensitive to a different waveband centered at 250 micron, 350 micron, or 500 micron; together comprising 3318 individual polarization-sensitive detectors. The detector arrays are read out with high levels of multiplexing, with each microwave feedline addressing between 466 and 938 unique resonators depending on the array. Designing for space-like low photon loads, polarization-sensitivity, different frequency bands, and 275 mK operation all pose unique challenges. We address these challenges by employing feedhorn-coupled, dual-polarization sensitive pixels fabricated from TiN/Ti multilayers that combine high responsivity, high uniformity, low loss, and a tunable superconducting Tc. Here, we present the detailed design and fabrication of these arrays, which includes an optimized quarter wavelength silicon backshort for each band realized by micromachining a silicon on insulator (SOI) wafer, aluminum patching of the TiN/Ti absorbing inductor to increase response and tune the effective optical coupling impedance, and a semi-automated layout scheme to make a stepper-compliant lithography process that tiles identical stepper images across the array and then trims them individually to minimize their frequency scatter and crosstalk. This results in high quality, easily reconfigurable, and uniform arrays of MKIDs. We show measurements that demonstrate high pixel yield, > 98% polarization isolation, and a noise equivalent power (NEP) limited by photon noise at the expected in-flight photon load.

Proceedings Article | 10 July 2018 Presentation

Large format arrays of kinetic inductance detectors for the TolTEC millimeter-wave imaging polarimeter (Conference Presentation)

Jason Austermann, James Beall, Sean Bryan, Brad Dober, Jiansong Gao, Gene Hilton, Johannes Hubmayr, Philip Mauskopf, Christopher McKenney, Sara Simon, Joel Ullom, Michael Vissers, Grant Wilson

Proceedings Volume 10708, 107080U (2018) https://doi.org/10.1117/12.2313708

KEYWORDS: Sensors, Inductance, Millimeter wave imaging, Polarimetry, Silicon, Polarization, Microwave radiation, Detector arrays, Multiplexing, Telescopes

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Microwave Kinetic Inductance Detectors (MKIDs) provide a technological path towards the high-yield, large-format detector arrays needed for the next generation of experiments. The intrinsically integrated readout components of MKIDs generally give rise to high multiplexing factors, simplified assembly, and streamlined experimental integration. We describe the first MKID arrays fabricated and tested on monolithic 150 mm diameter silicon substrates – a crucial scaling in fabrication capacity that is necessary for future large-scale experiments aiming to incorporate hundreds of thousands of detectors in the coming years. The arrays described here are being developed for the TolTEC millimeter-wave imaging polarimeter being constructed for the 50-meter Large Millimeter Telescope (LMT), with observations planned to begin in early 2019. TolTEC uses dichroic filters to define three physically independent focal planes for operation in observational bands centered at 1.1, 1.4, and 2.0 mm. Each focal plane observes in just one wavelength band, allowing the use of simple to produce, direct-absorption pixel designs with each pixel comprising two detectors that are sensitive to orthogonal states of linear polarization. TolTEC comprises approximately 7,000 polarization sensitive MKIDs designed to operate at a base temperature of 100 mK. The primary working material used for these devices are TiN/Ti/TiN multilayer films, which have several advantageous qualities including: low two-level system noise at the TiN-silicon interface; linear responsivity; uniformity in deposition; and tunable transition temperature, sheet resistance and sheet inductance. We describe the detailed pixel and array layout designs, including focal plane integration and optical coupling via spline-profiled, silicon-platelet, feedhorn-coupled waveguide. We present measurements of full arrays and/or prototype small arrays of devices operating in each of the three observation bands and compare the observed noise and optical performance to that predicted from models and simulations. We also describe the fabrication methods used to produce these large-format arrays with high yield and uniformity.

Proceedings Article | 10 July 2018 Presentation

Scalable arrays of planar metamaterial lenslets for use in millimeter and submillimeter focal planes (Conference Presentation)

Christopher McKenney, Nils Halverson, Jason Austermann, Bradley Dober, James Beall, Johannes Hubmayr, Gregory Jaehnig, Hayley Roberts, James Sayre, Wendeline Everett, Aritoki Suzuki, Giampaolo Pisano, Robert Bruder

Proceedings Volume 10708, 107080H (2018) https://doi.org/10.1117/12.2313879

KEYWORDS: Silicon, Staring arrays, Metamaterials, Sensors, Semiconducting wafers, Finite element methods, Phased array optics, Phased arrays, Fabrication, Optics manufacturing

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The need for larger arrays of millimeter and submillimeter wavelength detectors for Cosmic Microwave Background (CMB) experiments is driving a demand for focal planes which can field large numbers of detectors with both high sensitivity and wide bandwidth. Current CMB experiments have $\sim 10^{4}$ detectors, with next generation focal planes requiring $\sim 10^{5}$ or more. One challenge of expanding the array size is coupling the detectors to instrument optics with a method that is broadband, low loss, and scalable. Current state of the art methods of coupling incident radiation include phased array antenna-coupled detectors, corrugated feedhorn arrays, and hemispherical lenslet array-coupled planar antennas. Phased array antennas are fabricated using planar lithography techniques and therefore easily scalable, but are typically narrow band ($\sim 30\%$). Silicon platelet feedhorns are scalable and low loss, but typically achieve only an octave of bandwidth. Lenslets have been produced using silicon hemispheres stacked on silicon plates to approximate an elliptical lens. Low loss and broadband behavior is accomplished by individually molding anti-reflection layers made of materials with appropriate refractive indices and individually glued to arrays; however this approach does not easily scale to larger arrays. We are developing planar lenslet arrays using metamaterials fabricated with standard microlithograpy techniques on silicon wafers. Instead of using difficult to manufacture curved optical surfaces, the lenslets consist of stacks of silicon wafers which are each patterned with an array of sub-wavelength features to produce optical features which form a well defined beam at measurement wavelengths. These arrays are being developed using two approaches: GRadient INdex (GRIN) lenslets which are fabricated by etching holes on a sub-wavelength grid to produce a spatially varying effective index of refraction, and metal-mesh lenslets which are produced by depositing spatially varying metallic features which act as a series of Transmission Line (TL) lumped element features to control phase delay across the wafer. GRIN lenslets are fabricated by etching sub-wavelength holes on a periodic, sub-wavelength grid using standard microlithography techniques. The wafers can be stacked, allowing the spatial index to be altered along all dimensions, which allows for arbitrary anti-reflective coatings to be integrated in the lenslet design. Simulations in finite element modeling (FEM) software have been used to both evaluate the effective index of an individual element and simulate full lenslet structures. Dielectrically embedded mesh-lenses are based on existing mesh-filter technology. Differently from the mesh-filters, the grids are inhomogeneous and their geometry is designed in such a way to impart variable phase shifts across the surface. The local phase shifts reproduce those that would be introduced by a classical dielectric lens. In this work we are developing mesh-lenslets on silicon substrates. The metal grids are supported by silicon nitride (SiN) membranes and kept at specific distances in an air-gap configuration. Finite element analysis is used to quantify and optimize the performance of these devices. We report on progress in both lenslet design approaches. In each case we have developed a set of design equations which guide the design of the full lenslet structure. These structures are simulated using finite element modeling simulations. We report on measurements and efficacy of the design and simulation process and agreement with laboratory measurements of prototype lenslet arrays.

Proceedings Article | 10 July 2018 Presentation

Readout demonstration of 512 TES bolometers using a single microwave SQUID multiplexer (Conference Presentation)

Bradley Dober, Zeeshan Ahmed, Jason Austermann, Daniel Becker, Douglas Bennett, David Brown, Saptarshi Chaudhuri, Hsiao-Mei Sherry Cho, John D'Ewart, Shannon Duff, John Dusatko, Sofia Fatigoni, Josef Frisch, Johnathon Gard, Mark Halpern, Shawn Henderson, Gene Hilton, Johannes Hubmayr, Kent Irwin, Ethan Karpel, Sarah Kernasovskiy, John A. Mates, Carl Reintsema, Michael Vissers, Leila Vale, Joel Ullom, Stephen Kuenstner, Chao-Lin Kuo, Dale Li, Stephen Smith, Daniel Van Winkle, Betty Young, Cyndia Yu

Proceedings Volume 10708, 1070818 (2018) https://doi.org/10.1117/12.2314231

KEYWORDS: Multiplexers, Microwave radiation, Bolometers, Sensors, Resonators, Multiplexing, Receivers, Modulation, Cameras, Observatories

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To enable the next-generation of bolometric cameras, we are developing the microwave SQUID multiplexer (μMUX). Upcoming receivers such as Simons Observatory, CCAT-prime, BICEP array, Ali-CPT, and CMB-S4 plan to instrument focal planes with 50,000-500,000 sensors. Sensor count is achieved by tiling many 150 mm-diameter densely packed detector arrays into these focal planes. The fabrication and quality of large-format bolometer arrays has been demonstrated and is now mature. In contrast, the readout technology required for next-generation receivers needs development. The sensitivity, low cross-talk, high multiplexing density, and small component size make the μMUX well-suited for this goal. In this approach, the TES signal modulates the inductance of an rf-SQUID that loads a high-Q microwave resonator. The coupled signal therefore modulates the microwave resonance frequency, which may be read out using homodyne techniques. By coupling each resonator to the same microwave feedline, many detectors can be read out on a single coaxial cable pair. The multiplexing density is in practice limited by signal bandwidth, allowable cross-talk, and the digitization bandwidth of room-temperature readout electronics. We present the design and performance of a scalable 64-channel multiplexer chip optimized for bolometric applications. We utilize a new quarter wave resonator design that increases the physical linear density by a factor of two, therefore achieving a smaller footprint for simplified detector packaging. Measurements of this design show 100 kHz resonator bandwidth, uniform 1.8 MHz frequency spacing, and an input referred current noise of 35 pA/√Hz that is well below the level of an optimized, background-limited TES bolometer. Using 8 daisy-chained and frequency scaled chips, we create a 512-channel multiplexer and use it to readout a 512 TES-bolometer array. We present the results of this large-scale μMUX demonstration including system yield, signal cross-talk, and an analysis of noise in various TES bias configurations. The result demonstrates the multiplexing density required to read out 2,000 sensors between 4-8 GHz.

Proceedings Article | 9 July 2018 Paper

Feedhorn development and scalability for Simons Observatory and beyond

Sara Simon, Joseph Golec, Aamir Ali, Jason Austermann, James Beall, Sarah Marie Bruno, Steve Choi, Kevin Crowley, Simon Dicker, Bradley Dober, Shannon Duff, Erin Healy, Charles Hill, Shuay-Pwu Patty Ho, Johannes Hubmayr, Yaqiong Li, Marius Lungu, Jeff McMahon, John Orlowski-Scherer, Maria Salatino, Suzanne Staggs, Edward Wollack, Zhilei Xu, Ningfeng Zhu

Proceedings Volume 10708, 107084B (2018) https://doi.org/10.1117/12.2313405

KEYWORDS: Silicon, Semiconducting wafers, Aluminum, Tolerancing, Detector arrays, Metals, Etching, Gold, Sensors, Coating

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Proceedings Article | 9 July 2018 Presentation + Paper

Preflight characterization of the BLAST-TNG receiver and detector arrays

Nathan Lourie, Peter A. Ade, Francisco Angile, Peter Ashton, Jason Austermann, Mark Devlin, Bradley Dober, Nicholas Galitzki, Jiansong Gao, Sam Gordon, Christopher Groppi, Jeffrey Klein, Gene Hilton, Johannes Hubmayr, Dale Li, Ian Lowe, Hamdi Mani, Philip Mauskopf, Christopher McKenney, Federico Nati, Giles Novak, Enzo Pascale, Giampaolo Pisano, Adrian Sinclair, Juan Soler, Carole Tucker, Joel Ullom, Michael Vissers, Paul Williams

Proceedings Volume 10708, 107080L (2018) https://doi.org/10.1117/12.2314396

KEYWORDS: Receivers, Sensors, Helium, Cryogenics, Liquids, Polarization, Resonators, Detector arrays, Magnetism

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Proceedings Article | 9 July 2018 Paper

Studies of systematic uncertainties for Simons Observatory: detector array effects

Kevin Crowley, Sara Simon, Max Silva-Feaver, Neil Goeckner-Wald, Aamir Ali, Jason Austermann, Michael Brown, Yuji Chinone, Ari Cukierman, Bradley Dober, Shannon Duff, Jo Dunkley, Josquin Errard, Giulio Fabbian, Patricio Gallardo, Shuay-Pwu Patty Ho, Johannes Hubmayr, Brian Keating, Akito Kusaka, Nialh McCallum, Jeff McMahon, Federico Nati, Michael Niemack, Giuseppe Puglisi, Mayuri Sathyanarayana Rao, Christian Reichardt, Maria Salatino, Praween Siritanasak, Suzanne Staggs, Aritoki Suzuki, Grant Teply, Daniel Thomas, Joel Ullom, Clara Vergès, Michael Vissers, Benjamin Westbrook, Edward Wollack, Zhilei Xu, Ningfeng Zhu

Proceedings Volume 10708, 107083Z (2018) https://doi.org/10.1117/12.2313414

KEYWORDS: Sensors, Polarization, Bolometers, Signal detection, Detector arrays, Calibration, Contamination, Antennas, Device simulation, Optical simulations

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Proceedings Article | 6 July 2018 Presentation + Paper

Design and characterization of a balloon-borne diffraction-limited submillimeter telescope platform for BLAST-TNG

Nathan Lourie, Francisco Angilé, Peter Ashton, Brian Catanzaro, Mark Devlin, Simon Dicker, Joy Didier, Bradley Dober, Laura Fissel, Nicholas Galitzki, Samuel Gordon, Jeffrey Klein, Ian Lowe, Philip Mauskopf, Federico Nati, Giles Novak, L. Javier Romualdez, Juan Soler, Paul Williams

Proceedings Volume 10700, 1070022 (2018) https://doi.org/10.1117/12.2314380

KEYWORDS: Mirrors, Telescopes, Space telescopes, Composites, Aluminum, Finite element methods, Stars, Cameras, Receivers, Surface finishing

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Proceedings Article | 19 July 2016 Paper

Instrumental performance and results from testing of the BLAST-TNG receiver, submillimeter optics, and MKID detector arrays

Nicholas Galitzki, Peter Ade, Francesco Angilè, Peter Ashton, Jason Austermann, Tashalee Billings, George Che, Hsiao-Mei Cho, Kristina Davis, Mark Devlin, Simon Dicker, Bradley Dober, Laura Fissel, Yasuo Fukui, Jiansong Gao, Samuel Gordon, Christopher Groppi, Seth Hillbrand, Gene Hilton, Johannes Hubmayr, Kent Irwin, Jeffrey Klein, Dale Li, Zhi-Yun Li, Nathan Lourie, Ian Lowe, Hamdi Mani, Peter Martin, Philip Mauskopf, Christopher McKenney, Federico Nati, Giles Novak, Enzo Pascale, Giampaolo Pisano, Fabio Santos, Douglas Scott, Adrian Sinclair, Juan Soler, Carole Tucker, Matthew Underhill, Michael Vissers, Paul Williams

Proceedings Volume 9914, 99140J (2016) https://doi.org/10.1117/12.2231167

KEYWORDS: Polarization, Polarimetry, Clouds, Stars, Sensors, Magnetism, Electroluminescent displays, Mirrors, Cryogenics, Helium

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Proceedings Article | 23 July 2014 Paper

MUSTANG2: a large focal plan array for the 100 meter Green Bank Telescope

S. Dicker, P. A. Ade, J. Aguirre, J. Brevik, H. Cho, R. Datta, M. Devlin, B. Dober, D. Egan, J. Ford, P. Ford, G. Hilton, J. Hubmayr, K. Irwin, B. Mason, P. Marganian, M. Mello, J. McMahon, T. Mroczkowski, C. Romero, S. Stanchfield, C. Tucker, L. Vale, S. White, M. Whitehead, A. Young

Proceedings Volume 9153, 91530J (2014) https://doi.org/10.1117/12.2056455

KEYWORDS: Sensors, Telescopes, Space telescopes, Bolometers, Receivers, Signal to noise ratio, Multiplexing, Cryogenics, Astronomy, Signal detection

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Proceedings Article | 23 July 2014 Paper

The next-generation BLASTPol experiment

Bradley Dober, Peter A. Ade, Peter Ashton, Francesco Angilè, James Beall, Dan Becker, Kristi Bradford, George Che, Hsiao-Mei Cho, Mark Devlin, Laura Fissel, Yasuo Fukui, Nicholas Galitzki, Jiansong Gao, Christopher Groppi, Seth Hillbrand, Gene Hilton, Johannes Hubmayr, Kent Irwin, Jeffrey Klein, Jeff Van Lanen, Dale Li, Zhi-Yun Li, Nathan Lourie, Hamdi Mani, Peter Martin, Philip Mauskopf, Fumitaka Nakamura, Giles Novak, David Pappas, Enzo Pascale, Fabio Santos, Giorgio Savini, Douglas Scott, Sara Stanchfield, Joel Ullom, Matthew Underhill, Michael Vissers, Derek Ward-Thompson

Proceedings Volume 9153, 91530H (2014) https://doi.org/10.1117/12.2054419

KEYWORDS: Sensors, Electroluminescent displays, Polarization, Magnetism, Mirrors, Stars, Clouds, Physics, Astronomy, Staring arrays

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Proceedings Article | 22 July 2014 Paper

BLASTbus electronics: general-purpose readout and control for balloon-borne experiments

S. Benton, P. Ade, M. Amiri, F. Angilè, J. Bock, J. Bond, S. Bryan, H. Chiang, C. Contaldi, B. Crill, M. Devlin, B. Dober, O. Doré, M. Farhang, J. Filippini, L. Fissel, A. Fraisse, Y. Fukui, N. Galitzki, A. Gambrel, N. Gandilo, S. Golwala, J. Gudmundsson, M. Halpern, M. Hasselfield, G. Hilton, W. Holmes, V. Hristov, K. Irwin, W. Jones, Z. Kermish, J. Klein, A. Korotkov, C. Kuo, C. MacTavish, P. Mason, T. Matthews, K. Megerian, L. Moncelsi, T. Morford, T. Mroczkowski, J. Nagy, C. Netterfield, G. Novak, D. Nutter, R. O'Brient, R. Ogburn, E. Pascale, F. Poidevin, A. Rahlin, C. Reintsema, J. Ruhl, M. Runyan, G. Savini, D. Scott, J. Shariff, J. Soler, N. Thomas, A. Trangsrud, M. Truch, C. Tucker, G. Tucker, R. Tucker, A. Turner, D. Ward-Thompson, A. Weber, D. Wiebe, E. Young

Proceedings Volume 9145, 91450V (2014) https://doi.org/10.1117/12.2056693

KEYWORDS: Bolometers, Digital signal processing, Analog electronics, Cryogenics, Electronics, Control systems, Physics, Sensors, Telescopes, Signal processing

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Proceedings Article | 22 July 2014 Paper

Attitude determination for balloon-borne experiments

N. Gandilo, P. A. Ade, M. Amiri, F. Angilè, S. Benton, J. Bock, J. Bond, S. Bryan, H. Chiang, C. Contaldi, B. Crill, M. Devlin, B. Dober, O. Doré, M. Farhang, J. Filippini, L. Fissel, A. Fraisse, Y. Fukui, N. Galitzki, A. Gambrel, S. Golwala, J. Gudmundsson, M. Halpern, M. Hasselfield, G. Hilton, W. Holmes, V. Hristov, K. Irwin, W. Jones, Z. Kermish, J. Klein, A. Korotkov, C. Kuo, C. MacTavish, P. Mason, T. Matthews, K. Megerian, L. Moncelsi, T. Morford, T. Mroczkowski, J. Nagy, C. Netterfield, G. Novak, D. Nutter, R. O'Brient, E. Pascale, F. Poidevin, A. Rahlin, C. Reintsema, J. Ruhl, M. Runyan, G. Savini, D. Scott, J. Shariff, J. Soler, N. Thomas, A. Trangsrud, M. Truch, C. Tucker, G. Tucker, R. Tucker, A. Turner, D. Ward-Thompson, A. Weber, D. Wiebe, E. Young

Proceedings Volume 9145, 91452U (2014) https://doi.org/10.1117/12.2055156

KEYWORDS: Cameras, Stars, Sensors, Gyroscopes, Global Positioning System, Antennas, Sun, Telescopes, Magnetism, Physics

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Proceedings Article | 22 July 2014 Paper

Thermal design and performance of the balloon-borne large aperture submillimeter telescope for polarimetry BLASTPol

J. Soler, P. A. Ade, F. Angilè, S. Benton, M. Devlin, B. Dober, L. Fissel, Y. Fukui, N. Galitzki, N. Gandilo, J. Klein, A. Korotkov, T. Matthews, L. Moncelsi, A. Mroczkowski, C. Netterfield, G. Novak, D. Nutter, E. Pascale, F. Poidevin, G. Savini, D. Scott, Jamil Shariff, N. Thomas, M. Truch, C. Tucker, G. Tucker, D. Ward-Thompson

Proceedings Volume 9145, 914534 (2014) https://doi.org/10.1117/12.2055431

KEYWORDS: Thermal modeling, Aluminum, Chemical elements, Sun, Mirrors, Telescopes, Solar radiation models, Coating, Polarimetry, Physics

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Proceedings Article | 22 July 2014 Paper

The Balloon-borne Large Aperture Submillimeter Telescope for Polarimetry-BLASTPol: performance and results from the 2012 Antarctic flight

N. Galitzki, P. A. Ade, F. Angilè, S. Benton, M. Devlin, B. Dober, L. Fissel, Y. Fukui, N. Gandilo, J. Klein, A. Korotkov, T. Matthews, L. Moncelsi, C. Netterfield, G. Novak, D. Nutter, E. Pascale, F. Poidevin, G. Savini, D. Scott, J. Shariff, J. Soler, C. Tucker, G. Tucker, D. Ward-Thompson

Proceedings Volume 9145, 91450R (2014) https://doi.org/10.1117/12.2054759

KEYWORDS: Polarization, Clouds, Magnetism, Electroluminescent displays, Mirrors, Polarimetry, Telescopes, Stars, Submillimeter telescopes, Physics

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Proceedings Article | 27 September 2012 Paper

The balloon-borne large-aperture submillimeter telescope for polarimetry-BLASTPol: performance and results from the 2010 Antarctic flight

Enzo Pascale, Peter A. Ade, Francesco Angilè, Steven Benton, Mark Devlin, Brad Dober, Laura Fissel, Yasuo Fukui, Natalie Gandilo, Joshua Gundersen, Peter Hargrave, Jeffrey Klein, Andrei Korotkov, Tristan Matthews, Lorenzo Moncelsi, Tony Mroczkowski, C. Barth Netterfield, Giles Novak, David Nutter, Luca Olmi, Frédérick Poidevin, Giorgio Savini, Douglas Scott, Jamil Shariff, Juan Diego Soler, Nicholas Thomas, Matthew D. Truch, Carole Tucker, Gregory Tucker, Derek Ward-Thompson

Proceedings Volume 8444, 844415 (2012) https://doi.org/10.1117/12.927211

KEYWORDS: Polarization, Clouds, Electroluminescent displays, Magnetism, Polarimetry, Telescopes, Stars, Sensors, Physics, Submillimeter telescopes

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