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1. Microcalorimeter Absorber Optimization for ATHENA and LEM

Author

Wassell, Edward, Adams, Joseph, Bandler, Simon, Chervenak, James, Cumbee, Renata, Finkbeiner, Fred, Fuhrman, Joshua, Hull, Samuel, Kelley, Richard, Kilbourne, Caroline, Mateo, Jennette, Muramatsu, Haruka, Porter, Frederick, Rani, Asha, Sakai, Kazuhiro, Smith, Stephen, Wakeham, Nicholas, and Yoon, Sang

Published
2024
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2. The Athena X-ray Integral Field Unit: a consolidated design for the system requirement review of the preliminary definition phase

Author

Barret, Didier, Albouys, Vincent, Herder, Jan-Willem den, Piro, Luigi, Cappi, Massimo, Huovelin, Juhani, Kelley, Richard, Mas-Hesse, J. Miguel, Paltani, Stéphane, Rauw, Gregor, Rozanska, Agata, Svoboda, Jiri, Wilms, Joern, Yamasaki, Noriko, Audard, Marc, Bandler, Simon, Barbera, Marco, Barcons, Xavier, Bozzo, Enrico, Ceballos, Maria Teresa, Charles, Ivan, Costantini, Elisa, Dauser, Thomas, Decourchelle, Anne, Duband, Lionel, Duval, Jean-Marc, Fiore, Fabrizio, Gatti, Flavio, Goldwurm, Andrea, Hartog, Roland den, Jackson, Brian, Jonker, Peter, Kilbourne, Caroline, Korpela, Seppo, Macculi, Claudio, Mendez, Mariano, Mitsuda, Kazuhisa, Molendi, Silvano, Pajot, François, Pointecouteau, Etienne, Porter, Frederick, Pratt, Gabriel W., Prêle, Damien, Ravera, Laurent, Sato, Kosuke, Schaye, Joop, Shinozaki, Keisuke, Skup, Konrad, Soucek, Jan, Thibert, Tanguy, Vink, Jacco, Webb, Natalie, Chaoul, Laurence, Raulin, Desi, Simionescu, Aurora, Torrejon, Jose Miguel, Acero, Fabio, Branduardi-Raymont, Graziella, Ettori, Stefano, Finoguenov, Alexis, Grosso, Nicolas, Kaastra, Jelle, Mazzotta, Pasquale, Miller, Jon, Miniutti, Giovanni, Nicastro, Fabrizio, Sciortino, Salvatore, Yamaguchi, Hiroya, Beaumont, Sophie, Cucchetti, Edoardo, D’Andrea, Matteo, Eckart, Megan, Ferrando, Philippe, Kammoun, Elias, Lotti, Simone, Mesnager, Jean-Michel, Natalucci, Lorenzo, Peille, Philippe, de Plaa, Jelle, Ardellier, Florence, Argan, Andrea, Bellouard, Elise, Carron, Jérôme, Cavazzuti, Elisabetta, Fiorini, Mauro, Khosropanah, Pourya, Martin, Sylvain, Perry, James, Pinsard, Frederic, Pradines, Alice, Rigano, Manuela, Roelfsema, Peter, Schwander, Denis, Torrioli, Guido, Ullom, Joel, Vera, Isabel, Villegas, Eduardo Medinaceli, Zuchniak, Monika, Brachet, Frank, Cicero, Ugo Lo, Doriese, William, Durkin, Malcom, Fioretti, Valentina, Geoffray, Hervé, Jacques, Lionel, Kirsch, Christian, Smith, Stephen, Adams, Joseph, Gloaguen, Emilie, Hoogeveen, Ruud, van der Hulst, Paul, Kiviranta, Mikko, van der Kuur, Jan, Ledot, Aurélien, van Leeuwen, Bert-Joost, van Loon, Dennis, Lyautey, Bertrand, Parot, Yann, Sakai, Kazuhiro, van Weers, Henk, Abdoelkariem, Shariefa, Adam, Thomas, Adami, Christophe, Aicardi, Corinne, Akamatsu, Hiroki, Alonso, Pablo Eleazar Merino, Amato, Roberta, André, Jérôme, Angelinelli, Matteo, Anon-Cancela, Manuel, Anvar, Shebli, Atienza, Ricardo, Attard, Anthony, Auricchio, Natalia, Balado, Ana, Bancel, Florian, Barusso, Lorenzo Ferrari, Bascuñan, Arturo, Bernard, Vivian, Berrocal, Alicia, Blin, Sylvie, Bonino, Donata, Bonnet, François, Bonny, Patrick, Boorman, Peter, Boreux, Charles, Bounab, Ayoub, Boutelier, Martin, Boyce, Kevin, Brienza, Daniele, Bruijn, Marcel, Bulgarelli, Andrea, Calarco, Simona, Callanan, Paul, Campello, Alberto Prada, Camus, Thierry, Canourgues, Florent, Capobianco, Vito, Cardiel, Nicolas, Castellani, Florent, Cheatom, Oscar, Chervenak, James, Chiarello, Fabio, Clerc, Laurent, Clerc, Nicolas, Cobo, Beatriz, Coeur-Joly, Odile, Coleiro, Alexis, Colonges, Stéphane, Corcione, Leonardo, Coriat, Mickael, Coynel, Alexandre, Cuttaia, Francesco, D’Ai, Antonino, D’anca, Fabio, Dadina, Mauro, Daniel, Christophe, Dauner, Lea, DeNigris, Natalie, Dercksen, Johannes, DiPirro, Michael, Doumayrou, Eric, Dubbeldam, Luc, Dupieux, Michel, Dupourqué, Simon, Durand, Jean Louis, Eckert, Dominique, Eiriz, Valvanera, Ercolani, Eric, Etcheverry, Christophe, Finkbeiner, Fred, Fiocchi, Mariateresa, Fossecave, Hervé, Franssen, Philippe, Frericks, Martin, Gabici, Stefano, Gant, Florent, Gao, Jian-Rong, Gastaldello, Fabio, Genolet, Ludovic, Ghizzardi, Simona, Gil, Ma Angeles Alcacera, Giovannini, Elisa, Godet, Olivier, Gomez-Elvira, Javier, Gonzalez, Raoul, Gonzalez, Manuel, Gottardi, Luciano, Granat, Dolorès, Gros, Michel, Guignard, Nicolas, Hieltjes, Paul, Hurtado, Adolfo Jesús, Irwin, Kent, Jacquey, Christian, Janiuk, Agnieszka, Jaubert, Jean, Jiménez, Maria, Jolly, Antoine, Jourdan, Thierry, Julien, Sabine, Kedziora, Bartosz, Korb, Andrew, Kreykenbohm, Ingo, König, Ole, Langer, Mathieu, Laudet, Philippe, Laurent, Philippe, Laurenza, Monica, Lesrel, Jean, Ligori, Sebastiano, Lorenz, Maximilian, Luminari, Alfredo, Maffei, Bruno, Maisonnave, Océane, Marelli, Lorenzo, Massonet, Didier, Maussang, Irwin, Melchor, Alejandro Gonzalo, Le Mer, Isabelle, Millan, Francisco Javier San, Millerioux, Jean-Pierre, Mineo, Teresa, Minervini, Gabriele, Molin, Alexeï, Monestes, David, Montinaro, Nicola, Mot, Baptiste, Murat, David, Nagayoshi, Kenichiro, Nazé, Yaël, Noguès, Loïc, Pailot, Damien, Panessa, Francesca, Parodi, Luigi, Petit, Pascal, Piconcelli, Enrico, Pinto, Ciro, Plaza, Jose Miguel Encinas, Plaza, Borja, Poyatos, David, Prouvé, Thomas, Ptak, Andy, Puccetti, Simonetta, Puccio, Elena, Ramon, Pascale, Reina, Manuel, Rioland, Guillaume, Rodriguez, Louis, Roig, Anton, Rollet, Bertrand, Roncarelli, Mauro, Roudil, Gilles, Rudnicki, Tomasz, Sanisidro, Julien, Sciortino, Luisa, Silva, Vitor, Sordet, Michael, Soto-Aguilar, Javier, Spizzi, Pierre, Surace, Christian, Sánchez, Miguel Fernández, Taralli, Emanuele, Terrasa, Guilhem, Terrier, Régis, Todaro, Michela, Ubertini, Pietro, Uslenghi, Michela, de Vaate, Jan Geralt Bij, Vaccaro, Davide, Varisco, Salvatore, Varnière, Peggy, Vibert, Laurent, Vidriales, María, Villa, Fabrizio, Vodopivec, Boris Martin, Volpe, Angela, de Vries, Cor, Wakeham, Nicholas, Walmsley, Gavin, Wise, Michael, de Wit, Martin, and Woźniak, Grzegorz

Published
2023
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5. Design of Magnetic Shielding and Field Coils for a TES X-ray Microcalorimeter Test Platform

Author

Miniussi, Antoine R., Adams, Joseph S., Bandler, Simon R., Chervenak, James A., Datesman, Aaron M., Doriese, William B., Eckart, Megan E., Finkbeiner, Fred M., Kelley, Richard L., Kilbourne, Caroline A., Porter, Frederick S., Sadleir, John E., Sakai, Kazuhiro, Smith, Stephen J., Wakeham, Nicholas A., Wassell, Edward J., van Weers, Henk J., and Yoon, Wonsik

Published
2019
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8. Multiabsorber Transition-Edge Sensors for X-Ray Astronomy

Author

Smith, Stephen J, Adams, Joseph S, Bandler, Simon R, Chervenak, James A, Datesman, Aaron M, Eckart, Megan E, Finkbeiner, Fred M, Hummatov, Ruslan A, Kelley, Richard L, Kilbourne, Caroline A, Miniussi, Antoine R, Porter, Frederick S, Sadleir, John. E, Sakai, Kazuhiro, Wakeham, Nicholas A, and Wassell, Edward J

Subjects
Astrophysics
Abstract

We are developing arrays of position-sensitive microcalorimeters for future x-ray astronomy applications. These position-sensitive devices commonly referred to as hydras consist of multiple x-ray absorbers, each with a different thermal coupling to a single-transition-edge sensor microcalorimeter. Their development is motivated by a desire to achieve very large pixel arrays with some modest compromise in performance. We report on the design, optimization, and first results from devices with small pitch pixels (<75 μm) being developed for a high-angular and energy resolution imaging spectrometer for Lynx. The Lynx x-ray space telescope is a flagship mission concept under study for the National Academy of Science 2020 decadal survey. Broadband full-width-half-maximum (FWHM) resolution measurements on a 9-pixel hydra have demonstrated ΔE(FWHM) = 2.23 ± 0.14 eV at Al-Kα, ΔE(FWHM) = 2.44 ± 0.29 eV at Mn-Kα, and ΔE(FWHM) = 3.39 ± 0.23 eV at Cu-Kα. Position discrimination is demonstrated to energies below <1 keV and the device performance is well-described by a finite-element model. Results from a prototype 20-pixel hydra with absorbers on a 50-μm pitch have shown ΔE(FWHM) = 3.38 ± 0.20 eV at Cr-Kα1. We are now optimizing designs specifically for Lynx and extending the number of absorbers up to 25/hydra. Numerical simulation suggests optimized designs could achieve ∼3 eV while being compatible with the bandwidth requirements of the state-of-the art multiplexed readout schemes, thus making a 100,000 pixel microcalorimeter instrument a realistic goal.

Published
2019
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9. The Impact of Transition Edge Sensor Design on Achievable Performance Uniformity of Kilo-Pixel Arrays

Author

Wakeham, Nicholas, Adams, Joseph, Bandler, Simon, Beaumont, Sophie, Chervenak, James, Datesman, Aaron, Eckart, Megan, Finkbeiner, Fred, Hummatov, Ruslan, Kelley, R, Kilbourne, Caroline, Miniussi, Antoine, Porter, F, Sadleir, John, Sakai, Kazuhiro, Smith, Stephen, and Wassell, Edward

Subjects
Astrophysics
Abstract

Future astronomy missions using x-ray transition-edge sensor (TES) microcalorimeters, such as X-IFU on Athena, will require large arrays of 1000s of pixels fabricated on a single wafer. To wire out so many pixels the current array designs have pixels with different rotational orientations. Fabrication is done in multiple layers and so, dependent on method, there is potential for spatial misalignment between layers. Because of the variation of orientation of pixels, misalignment may not impact each pixel equally. This has the potential to degrade the achievable uniformity of performance across an array. How well aligned do different layers need to be? How does sensitivity to misalignment depend on choice of pixel design?

Published
2018

10. Integration of Multilevel Superconducting Buried Wiring Layers with Transition-Edge Sensor Detectors for Large Scale Arrays

Author

Datesman, Aaron M, Adams, Joseph S, Bandler, Simon R, Bolkhovsky, Vladimir, Chang, Meng-Ping, Chervenak, James A, DeNigris, Natalie S, Eckart, Megan E, Ewin, Audrey J, Finkbeiner, Fred M, Ha, Jong Yoon, Kelley, Richard L, Kilbourne, Caroline A, Mendenhall, Jeffrey, Miniussi, Antoine R, Porter, Frederick S, Ryu, Kevin, Sadleir, John E, Sakai, Kazuhiro, Smith, Stephen J, Wakeham, Nicholas A, and Wassell, Edward J

Subjects
Computer Operations And Hardware, Electronics And Electrical Engineering
Abstract

Lynx, one of the four mission concepts under consideration for the next Astrophysics DecadalReview, will include a microcalorimeter array consisting of more than 100,000 pixels in a compact arrangement with absorber pitch as small as 25 microns. In order to realize the desired array scale, fine-pitch multi-level superconducting wiring with high yield, compatible with rapid expansion of our hydra absorber designs, is essential. We have demonstrated a method of integrating transition edge sensor (TES) microcalorimeters with suitable multilevel buried wiring, fabricated at MIT Lincoln Laboratory using advanced tools dedicated to superconducting circuit fabrication. The TES Mo/Au bilayer is deposited on a high-quality oxide surface created by chemical-mechanical polishing, allowing tight specifications on the TES superconducting transition and link conductivity to be achieved even though the process order has been inverted. The TESs contact the top-level niobium wiring through vias etched through silicon dioxide down to the topmost wiring layer. The article discusses the overall fabrication process, as wellas the behavior of sensors with different via designs, proximity structures, and lateral sizes. An initial iteration of the integrated fabrication process indicates that microcalorimeters fabricated in this way should meet mission specifications using a Mo/Au bilayer with a reasonable critical temperature below 100 mK.

Published
2018

11. Correcting Energy Estimation Errors Due to Finite Sampling of Transition‑Edge Sensor Data

Author

Witthoeft, M. C., Adams, J. S., Bandler, S. R., Beaumont, S., Chervenak, J. A., Eckart, M. E., Finkbeiner, F. M., Kelley, R. L., Kilbourne, C. A., Miniussi, Antoine, Porter, F. S., Sakai, K., Smith, S. J., Wakeham, Nicholas, and Wassell, E. J.

Subjects
Physics::Instrumentation and Detectors, Astrophysics::Instrumentation and Methods for Astrophysics
Abstract

We are developing transition-edge sensor microcalorimeters for the X-ray integral field unit (X-IFU) on-board ESA’s Athena space telescope. These detectors will be read out using time-domain multiplexing. Due to the limitations on bandwidth and dynamic range of the readout, the optimally filtered pulse heights of the measured X-ray signals suffer from a nonlinear variation with the exact photon arrival time relative to the sampling points. The shape and magnitude of this variation depend on the photon energy. We describe a method to characterize this energy-dependent variation with few parameters, which can then be interpolated to correct event energies across the whole spectrum. We implement our method on measurements from 200 pixels in a prototype X-IFU kilo-pixel array readout using 8-column × 32-row TDM. We show that the interpolation errors between calibration points, over the energy range 4–12 keV, can be made sufficiently small that they do not adversely impact the measured energy resolution across the full spectral range.

Published
2022
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12. Design and Optimization of Multi-Pixel Transition-Edge Sensors for X-Ray Astronomy Applications

Author

Smith, Stephen J, Adams, Joseph S, Bandler, Simon R, Chervenak, James A, Datesman, Aaron Michael, Eckart, Megan E, Ewin, Audrey J, Finkbeiner, Fred M, Kelley, Richard L, Kilbourne, Caroline A, Miniussi, Antoine R, Porter, Frederick S, Sadleir, John E, Sakai, Kazuhiro, Wakeham, Nicholas A, Wassell, Edward J, and Yoon, Wonsik

Subjects
Astrophysics
Abstract

Multi-pixel transition-edge sensors (TESs), commonly referred to as 'hydras', are a type of position sensitive micro-calorimeter that enables very large format arrays to be designed without commensurate increase in the number of readout channels and associated wiring. In the hydra design, a single TES is coupled to discrete absorbers via varied thermal links. The links act as low pass thermal filters that are tuned to give a different characteristic pulse shape for x-ray photons absorbed in each of the hydra sub pixels. In this contribution we report on the experimental results from hydras consisting of up to 20 pixels per TES. We discuss the design trade-offs between energy resolution, position discrimination and number of pixels and investigate future design optimizations specifically targeted at meeting the readout technology considered for Lynx.

Published
2017

13. Design of Magnetic Shielding and Field Coils for a TES X-Ray Microcalorimeter Test Platform

Author

Miniussi, Antoine R, Adams, Joseph S, Bandler, Simon R, Chervenak, James A, Datesman, Aaron M, Doriese, William B, Eckart, Megan E, Finkbeiner, Fred M, Kelley, Richard L, Kilbourne, Caroline A, Porter, Frederick S, Sadleir, John E, Sakai, Kazuhiro, Smith, Stephen J, Wakeham, Nicholas A, Wassell, Edward J, van Weers, Henk J, and Yoon, Yonsik

Subjects
Astrophysics
Abstract

The performance of Transition-Edge Sensors (TES) and their SQUID multiplexed read-outs are very sensitive to the ambient magnetic field from Earth and fluctuations that can arise due to fluctuating magnetic fields outside of the focal plane assembly from the Adiabatic Demagnetization Refrigerator (ADR).Thus, the experimental platform we are building to test the FPA of the X-ray Integral Field Unit (X-IFU) of the Athena mission needs to include a series of shields and a coil in order to meet the following requirement of magnetic field density and uniformity.

Published
2017

14. Toward Large FOV High-Resolution X-Ray Imaging Spectrometer: Microwave Multiplexed Readout of 32 TES Microcalorimeters

Author

Yoon, Wonsik, Adams, Joseph S, Bandler, Simon R, Chervenak, James A, Datesman, Aaron M, Eckart, Megan E, Finkbeiner, Fred M, Kelley, Richard L, Kilbourne, Caroline A, Miniussi, Antoine R, Moseley, Samuel H, Porter, Frederick S, Sadleir, John E, Kazuhiro, Sakai, Smith, Stephen J, Stevenson, Thomas R, Wakeham, Nicholas A, Wassell, Edward J, Wollack, Edward J, Noroozian, Omid, Becker, Dan, Bennett, Douglas A, Fowler, Joseph W, Gard, Johnathon D, Hilton, Gene C, Mates, John A. B, Reintsema, Carl D, Swetz, Daniel S, Ullom, Joel N, and Vale, Leila R

Subjects
Instrumentation And Photography, Communications And Radar
Abstract

We performed a small-scale demonstration at GSFC of high-resolution x-ray TES microcalorimeters read out using a microwave SQUID multiplexer. This work is part of our effort to develop detector and readout technologies for future space based x-ray instruments such as the microcalorimeter spectrometer envisaged for Lynx, a large mission concept under development for the Astro 2020 Decadal Survey. In this paper we describe our experiment, including details of a recently designed, microwave-optimized low-temperature setup that is thermally anchored to the 50 mK stage of our laboratory ADR. Using a ROACH2 FPGA at room temperature, we simultaneously read out 32 pixels of a GSFC-built detector array via a NIST-built multiplexer chip with Nb coplanar waveguide resonators coupled to RF SQUIDs. The resonators are spaced 6 MHz apart (at approx. 5.9 GHz) and have quality factors of approximately 15,000. Using flux-ramp modulation frequencies of 160 kHz we have achieved spectral resolutions of 3 eV FWHM on each pixel at 6 keV. We will present the measured system-level noise and maximum slew rates, and briefly describe the implications for future detector and readout design.

Published
2017

15. Performance of an X-Ray Microcalorimeter with a 240 Micron Absorber and a 50 Micron TES Bilayer

Author

Miniussi, Antoine R, Adams, Joseph S, Bandler, Simon R, Chervenak, James A, Datesman, Aaron M, Eckart, Megan E, Ewin, Audrey J, Finkbeiner, Fred M, Kelley, Richard L, Kilbourne, Caroline A, Porter, Frederick S, Sadleir, John E, Sakai, Kazuhiro, Smith, Stephen J, Wakeham, Nicholas A, Wassell, Edward J, and Yoon, Wonsik

Subjects
Astrophysics
Abstract

We have been developing superconducting transition-edge sensor (TES) microcalorimeters for a variety of potential astrophysics missions, including Athena. The X-ray Integral Field Unit (X-IFU) instrument on this mission requires close-packed pixels on a 0.25 mm pitch, and high quantum efficiency between 0.2 and 12 keV. The traditional approach within our group has been to use square TES bilayers on molybdenum and gold that are between 100 and 140 microns in size, deposited on silicon nitride membranes to provide a weak thermal conductance to a 50 mK heat bath temperature. It has been shown that normal metal stripes on top of the bilayer are needed to keep the unexplained noise at a level consistent with the expected based upon estimates for the non-equilibrium non-linear Johnson noise.In this work we describe a new approach in which we use a square TES bilayer that is 50 microns in size. While the weak link effect is much stronger in this size of TES, we have found that excellent spectral performance can be achieved without the need for any normal metal strips on top of the TES. A spectral performance of 1.58 eV at 6 KeV has been achieved, the best resolution seen in any of our devices with this pixel size. The absence of normal metal stripes has led to more uniform transition shapes, and more reliable excellent spectral performance. The smaller TES size has meant that that the thermal conductance to the heat bath, determined by the perimeter length of the TES and the membrane thickness, is lower than on previous devices, and thus has a lower count rate capability. This is an advantage for low count-rate applications where the slower speed enables easier multiplexing in the read-out, thus potential higher multiplexing factors. In order to recover the higher count rate capabilities, a potential path exits using thicker silicon nitride membranes to increase the thermal conductance to the heat bath.

Published
2017

16. Reduced-Scale Transition-Edge Sensor Detectors for Solar and X-Ray Astrophysics

Author

Datesman, Aaron M, Adams, Joseph S, Bandler, Simon R, Betancourt-Martinez, Gabriele L, Chang, Meng-Ping, Chervenak, James A, Eckart, Megan E, Ewin, Audrey E, Finkbeiner, Fred M, Ha, Jong Yoon, Kelly, Richard L, Kilbourne, Caroline A, Miniussi, Antoine R, Porter, Frederick S, Sadleir, John E, Sakai, Kazuhiro, Smith, Stephen J, Wakeham, Nicholas A, Williams, Elissa H, Wassell, Edward J, and Yoon, Wonsik

Subjects
Instrumentation And Photography, Astrophysics
Abstract

We have developed large-format, close-packed X-ray microcalorimeter arrays fabricated on solid substrates, designed to achieve high energy resolution with count rates up to a few hundred counts per second per pixel for X-ray photon energies upto 8 keV. Our most recent arrays feature 31-micron absorbers on a 35-micron pitch, reducing the size of pixels by about a factor of two. This change will enable an instrument with significantly higher angular resolution. In order to wire out large format arrays with an increased density of smaller pixels, we have reduced the lateral size of both the microstrip wiring and the Mo/Au transition-edge sensors (TES). We report on the key physical properties of these small TESs and the fine Nb leads attached, including the critical currents and weak-link properties associated with the longitudinal proximity effect.

Published
2017
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17. Development of X-Ray Microcalorimeter Imaging Spectrometers for the X-Ray Surveyor Mission Concept

Author

Bandler, Simon R, Adams, Joseph S, Chervenak, James A, Datesman, Aaron M, Eckart, Megan E, Finkbeiner, Fred M, Kelley, Richard L, Kilbourne, Caroline A, Betncourt-Martinez, Gabriele, Miniussi, Antoine R, Porter, Frederick S, Sadleir, John E, Sakai, Kazuhiro, Smith, Stephen J, Stevenson, Thomas R, Wakeham, Nicholas A, Wassell, Edward J, Yoon, Wonsik, Becker, Dan, Bennett, Douglas, Doriese, William B, Fowler, Joseph W, Gard, Johnathon D, Hilton, Gene C, Mates, Benjamin, Morgan, Kelsey M, Reintsema, Carl D, Swetz, Daniel, Ullom, Joel N, Chaudhuri, Saptarshi, Irwin, Kent D, Lee, Sang-Jun, and Vikhlinin, Alexey

Subjects
Astrophysics
Abstract

Four astrophysics missions are currently being studied by NASA as candidate large missions to be chosen inthe 2020 astrophysics decadal survey.1 One of these missions is the X-Ray Surveyor (XRS), and possibleconfigurations of this mission are currently under study by a science and technology definition team (STDT). Oneof the key instruments under study is an X-ray microcalorimeter, and the requirements for such an instrument arecurrently under discussion. In this paper we review some different detector options that exist for this instrument,and discuss what array formats might be possible. We have developed one design option that utilizes eithertransition-edge sensor (TES) or magnetically coupled calorimeters (MCC) in pixel array-sizes approaching 100kilo-pixels. To reduce the number of sensors read out to a plausible scale, we have assumed detector geometriesin which a thermal sensor such a TES or MCC can read out a sub-array of 20-25 individual 1 pixels. In thispaper we describe the development status of these detectors, and also discuss the different options that exist forreading out the very large number of pixels.

Published
2016
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18. Demonstration of Athena X-IFU Compatible 40-Row Time-Division-Multiplexed Readout

Author

Durkin, Malcolm, Adams, Joseph S., Bandler, Simon R., Chervenak, James A., Miniussi, Antoine, Sakai, Kazuhiro, Smith, Stephen J., Wakeham, Nicholas, and Et Al

Abstract

Malcolm Durkin , Joseph S. Adams, Simon R. Bandler, James A. Chervenak, Saptarshi Chaudhuri, Carl S. Dawson, Edward V. Denison, William B. Doriese , Shannon M. Duff, Fred M. Finkbeiner , Connor T. FitzGerald, Joseph W. Fowler, Johnathon D. Gard, Gene C. Hilton, Kent D. Irwin, Young Il Joe, Richard L. Kelley, Caroline A. Kilbourne , Antoine Miniussi, Kelsey M. Morgan , Galen C. O���Neil, Christine G. Pappas, Frederick S. Porter, Carl D. Reintsema, David A. Rudman, Kazuhiro Sakai, Stephen J. Smith, Robert W. Stevens, Daniel S. Swetz, Paul Szypryt, Joel N. Ullom, Leila R. Vale, Nicholas Wakeham , Joel C. Weber, and Betty A. Young, Time-division multiplexing (TDM) is the backup readout technology for the X-ray Integral Field Unit (X-IFU), a 3168-pixel X-ray transition-edge sensor (TES) array that will provide imaging spectroscopy for european space agency���s Athena satellite mission. X-IFU design studies are considering readout with a multiplexing factor of up to 40. We present data showing 40-row TDM readout (32 TES rows + 8 repeats of the last row) of TESs that are of the same type as those being planned for X-IFU, using measurement and analysis parameters within the ranges specified for X-IFU. Single-column TDM measurements have best-fit energy resolution of (1.91 �� 0.01) eV for the Al K�� complex (1.5 keV), (2.10 �� 0.02) eV for Ti K�� (4.5 keV), (2.23 �� 0.02) eV for Mn K�� (5.9 keV), (2.40 �� 0.02) eV for Co K�� (6.9 keV), and (3.44 �� 0.04) eV for Br K�� (11.9 keV). Three-column measurements have best-fit resolution of (2.03 �� 0.01) eV for Ti K�� and (2.40 �� 0.01) eV for Co K��. The degradation due to the multiplexed readout ranges from 0.1 eV at the lower end of the energy range to 0.5 eV at the higher end. The demonstrated performance meets X-IFU���s energy-resolution and energy-range requirements. True 40-row TDM readout, without repeated rows, of kilopixel scale arrays of X-IFU-like TESs is now under development.

Published
2019
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19. Energy Calibration of High-Resolution X-Ray TES Microcalorimeters With 3 eV Optical Photons

Author

Jaeckel, F. T., Ambarish, C. V., Christensen, N., Gruenke, R., Miniussi, Antoine, Sakai, Kazuhiro, Smith, Stephen J., Wakeham, Nicholas, and Et Al

Abstract

F. T. Jaeckel , C. V. Ambarish, N. Christensen, R. Gruenke, L. Hu, D. McCammon, M. McPheron, M. Meyer, K. L. Nelms, A. Roy, D. Wulf, S. Zhang, Y. Zhou, J. S. Adams, S. R. Bandler, J. A. Chervenak, A. M. Datesman , M. E. Eckart, A. J. Ewin, F. M. Finkbeiner , R. Kelley, C. A. Kilbourne, Antoine Miniussi, F. S. Porter, J. E. Sadleir, Kazuhiro Sakai, Stephen J. Smith, Nicholas Wakeham, E. Wassell , W. Yoon , K. M. Morgan, D. R. Schmidt, D. S. Swetz, and J. N. Ullom, With the improving energy resolution of transition-edge sensor (TES) based microcalorimeters, performance verification and calibration of these detectors have become increasingly challenging, especially in the energy range below 1 keV where fluorescent atomic X-ray lines have linewidths that are wider than the detector energy resolution and require impractically high statistics to determine the gain and deconvolve the instrumental profile. Better behaved calibration sources such as grating monochromators are too cumbersome for space missions and are difficult to use in the lab. As an alternative, we are exploring the use of pulses of 3 eV optical photons delivered by an optical fiber to generate combs of known energies with known arrival times. Here, we discuss initial results of this technique obtained with 2 and 0.7 eV resolution X-ray microcalorimeters. With the 2 eV detector, we have achieved photon number resolution for pulses with mean photon number up to 133 (corresponding to 0.4 keV).

Published
2019
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20. Electron-Beam Deposition of Superconducting Molybdenum Thin Films for the Development of Mo/Au TES X-ray Microcalorimeter

Author

Finkbeiner, Fred Michael, Adams, Joseph S., Bandler, Simon R., Betancourt-Martinez, Gabriele L., Miniussi, Antoine, Sakai, Kazuhiro, Smith, Stephen J., Wakeham, Nicholas A., and Et Al

Abstract

Fred Michael Finkbeiner, Joseph S. Adams, Simon R. Bandler, Gabriele L. Betancourt-Martinez, Ari David Brown, Meng-Ping Chang, James A. Chervenak, Meng P. Chiao, Aaron M. Datesman, Megan E. Eckart, Richard L. Kelley, Caroline A. Kilbourne, Antoine Miniussi, Samuel J. Moseley, Frederick Scott Porter, John E. Sadleir, Kazuhiro Sakai, Stephen James Smith, Nicholas A. Wakeham, Edward J. Wassell, and Wonisk Yoon, We are exploring the properties of electron-beam evaporated molybdenum thin films on silicon nitride coated silicon wafers at substrate temperatures between room temperature and 650 ��C. The temperature dependence of film stress, transition temperature, and electrical properties are presented. X-ray diffraction measurements are performed to gain information on molybdenum crystallite size and growth. Results show the dominant influence of the crystallite size on the intrinsic properties of our films. Wafer-scale uniformity, wafer yield, and optimal thermal bias regime for TES fabrication are discussed.

Published
2016
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21. Fabrication of X-Ray Microcalorimeter Focal Planes Composed of Two Distinct Pixel Types

Author

Wassell, Edward J., Adams, Joseph S., Bandler, Simon R., Betancourt-Martinez, Gabriele L., Miniussi, Antoine, Sakai, Kazuhiro, Smith, Stephen J., Wakeham, Nicholas, Yoon, Wonsik, and Et Al

Abstract

Edward J. Wassell, Joseph S. Adams, Simon R. Bandler, Gabriele L. Betancourt-Martinez, Meng P. Chiao, Meng Ping Chang, James A. Chervenak, Aaron M. Datesman, Megan E. Eckart, Audrey J. Ewin, Fred Michael Finkbeiner, Jong Yoon Ha, Richard Kelley, Caroline A. Kilbourne, Antoine Miniussi, Kazuhiro Sakai, Frederick Scott Porter, John E. Sadleir, r, Stephen James Smith, Nicholas Wakeham, and Wonisk Yoon, We develop superconducting transition-edge sensor (TES) microcalorimeter focal planes for versatility in meeting the specifications of X-ray imaging spectrometers, including high count rate, high energy resolution, and large field of view. In particular, a focal plane composed of two subarrays: one of fine pitch, high count-rate devices and the other of slower, larger pixels with similar energy resolution, offers promise for the next generation of astrophysics instruments, such as the X-ray Integral Field Unit Instrument on the European Space Agency���s ATHENA mission. We have based the subarrays of our current design on successful pixel designs that have been demonstrated separately. Pixels with an all-gold X-ray absorber on 50 and 75 ��m pitch, where the Mo/Au TES sits atop a thick metal heatsinking layer, have shown high resolution and can accommodate high count rates. The demonstrated larger pixels use a silicon nitride membrane for thermal isolation, thinner Au, and an added bismuth layer in a 250-��m2 absorber. To tune the parameters of each subarray requires merging the fabrication processes of the two detector types. We present the fabrication process for dual production of different X-ray absorbers on the same substrate, thick Au on the small pixels and thinner Au with a Bi capping layer on the larger pixels to tune their heat capacities. The process requires multiple electroplating and etching steps, but the absorbers are defined in a single-ion milling step. We demonstrate methods for integrating the heatsinking of the two types of pixel into the same focal plane consistent with the requirements for each subarray, including the limiting of thermal crosstalk. We also discuss fabrication process modifications for tuning the intrinsic transition temperature (Tc) of the bilayers for the different device types through variation of the bilayer thicknesses. The latest results on these ���hybrid��� arrays will be presented.

Published
2016
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22. Development of the microcalorimeter and anticoincidence detector for the Line Emission Mapper x-ray probe.

Author

Smith, Stephen J., Adams, Joseph S., Bandler, Simon R., Borrelli, Rachel B., Chervenak, James A., Cumbee, Renata S., Figueroa-Feliciano, Enectali, Finkbeiner, Fred M., Furhman, Joshua, Hull, Samuel V., Kelley, Richard L., Kilbourne, Caroline A., Kurinsky, Noah A., Mateo, Jennette N., Rani, Asha, Sakai, Kazuhiro, Wakeham, Nicholas A., Wassell, Edward J., and Yoon, Sang H.

Published
2023
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25. Design and Performance of Hybrid Arrays of Mo/Au Bilayer Transition-Edge Sensors.

Author

Yoon, Wonsik, Adams, Joseph S., Bandler, Simon R., Betancourt-Martinez, Gabriele L., Chiao, Meng P., Chang, Meng-Ping, Chervenak, James A., Datesman, Aaron, Eckart, Megan E., Ewin, Audrey J., Finkbeiner, Fred Michael, Ha, Jong Yoon, Kelley, Richard, Kilbourne, Caroline A., Miniussi, Antoine R., Porter, Frederick Scott, Sadleir, John E., Sakai, Kazuhiro, Smith, Stephen James, and Wakeham, Nicholas A.

Subjects
ASTROPHYSICS, CALORIMETER calibration, TRANSITION temperature, X-rays, PIXELS
Abstract

For future X-ray astrophysics missions, X-ray microcalorimeters can be optimized with different properties in different regions of the focal plane. This approach has the potential to improve microcalorimeter instrument capabilities with efficient use of instrument resources. For example a point-source array optimized for high angular resolution, high count-rate observations could be accompanied by a main array to expand the field of view for diffuse observations. In this approach, it is desirable to be able to simultaneously optimize different transition-edge sensor (TES) geometries on a single wafer design. The key properties of TESs such as transition temperature and shape are a strong function of size and geometry due to the complex interplay between the proximity effect from the superconducting bias electrodes and the normal metal features used for noise suppression and absorber contact. As a result, devices fabricated with the same deposited layer but with different sizes will have different transition temperatures and different response to X-ray events. In this paper, we present measurements of the transition temperature and properties of devices with different sizes and normal metal features, and discuss how by tuning the geometry we can achieve the desired pixel parameters for a given application. We also describe measurements of transition properties from large-format hybrid arrays containing three different pixel types. [ABSTRACT FROM AUTHOR]

Published
2017
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26. Fabrication of X-Ray Microcalorimeter Focal Planes Composed of Two Distinct Pixel Types.

Author

Wassell, Edward J., Adams, Joseph S., Bandler, Simon R., Betancourt-Martinez, Gabriele L., Chiao, Meng P., Chang, Meng Ping, Chervenak, James A., Datesman, Aaron M., Eckart, Megan E., Ewin, Audrey J., Finkbeiner, Fred Michael, Ha, Jong Yoon, Kelley, Richard, Kilbourne, Caroline A., Miniussi, Antoine R., Sakai, Kazuhiro, Porter, Frederick Scott, Sadleir, John E., Smith, Stephen James, and Wakeham, Nicholas A.

Subjects
X-ray spectroscopy, CALORIMETERS, FOCAL planes, TEMPERATURE detectors, ACOUSTIC arrays
Abstract

We develop superconducting transition-edge sensor (TES) microcalorimeter focal planes for versatility in meeting the specifications of X-ray imaging spectrometers, including high count rate, high energy resolution, and large field of view. In particular, a focal plane composed of two subarrays: one of fine pitch, high count-rate devices and the other of slower, larger pixels with similar energy resolution, offers promise for the next generation of astrophysics instruments, such as the X-ray Integral Field Unit Instrument on the European Space Agency's ATHENA mission. We have based the subarrays of our current design on successful pixel designs that have been demonstrated separately. Pixels with an all-gold X-ray absorber on 50 and 75 μm pitch, where the Mo/Au TES sits atop a thick metal heatsinking layer, have shown high resolution and can accommodate high count rates. The demonstrated larger pixels use a silicon nitride membrane for thermal isolation, thinner Au, and an added bismuth layer in a 250-μm2 absorber. To tune the parameters of each subarray requires merging the fabrication processes of the two detector types. We present the fabrication process for dual production of different X-ray absorbers on the same substrate, thick Au on the small pixels and thinner Au with a Bi capping layer on the larger pixels to tune their heat capacities. The process requires multiple electroplating and etching steps, but the absorbers are defined in a single-ion milling step. We demonstrate methods for integrating the heatsinking of the two types of pixel into the same focal plane consistent with the requirements for each subarray, including the limiting of thermal crosstalk. We also discuss fabrication process modifications for tuning the intrinsic transition temperature ( Tc) of the bilayers for the different device types through variation of the bilayer thicknesses. The latest results on these “hybrid” arrays will be presented. [ABSTRACT FROM PUBLISHER]

Published
2017
Full Text
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27. Electron-Beam Deposition of Superconducting Molybdenum Thin Films for the Development of Mo/Au TES X-ray Microcalorimeter.

Author

Finkbeiner, Fred Michael, Adams, Joseph S., Bandler, Simon R., Betancourt-Martinez, Gabriele L., Brown, Ari David, Chang, Meng-Ping, Chervenak, James A., Chiao, Meng P., Datesman, Aaron M., Eckart, Megan E., Kelley, Richard L., Kilbourne, Caroline A., Miniussi, Antoine R., Moseley, Samuel J., Porter, Frederick Scott, Sadleir, John E., Sakai, Kazuhiro, Smith, Stephen James, Wakeham, Nicholas A., and Wassell, Edward J.

Subjects
ELECTRON beam deposition, SUPERCONDUCTORS, MOLYBDENUM compounds, THIN films analysis, CALORIMETERS, X-ray diffraction measurement
Abstract

We are exploring the properties of electron-beam evaporated molybdenum thin films on silicon nitride coated silicon wafers at substrate temperatures between room temperature and 650 °C. The temperature dependence of film stress, transition temperature, and electrical properties are presented. X-ray diffraction measurements are performed to gain information on molybdenum crystallite size and growth. Results show the dominant influence of the crystallite size on the intrinsic properties of our films. Wafer-scale uniformity, wafer yield, and optimal thermal bias regime for TES fabrication are discussed. [ABSTRACT FROM PUBLISHER]

Published
2017
Full Text
View/download PDF

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