Search

Your search keyword '"Wassell, E. J"' showing total 37 results
Start Over Author "Wassell, E. J"
37 results on '"Wassell, E. J"'

1. Towards 100,000-pixel microcalorimeter arrays using multi-absorber transition-edge sensors

Author

Smith, S. J., Adams, J. S., Bandler, S. R., Beaumont, S., Chervenak, J. A., Datesman, A. M., Finkbeiner, F. M., Hummatov, R., Kelly, R. L., Kilbourne, C. A., Miniussi, A. R., Porter, F. S., Sadleir, J. E., Sakai, K., Wakeham, N. A., Wassell, E. J., Witthoeft, M. C., and Ryu, K.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Condensed Matter - Superconductivity
Abstract

We report on the development of multi-absorber transition edge sensors (TESs), referred to as hydras. A hydra consists of multiple x-ray absorbers each with a different thermal conductance to a TES. Position information is encoded in the pulse shape. With some trade-off in performance, hydras enable very large format arrays without the prohibitive increase in bias and read-out components associated with arrays of individual TESs. Hydras are under development for the next generation of space telescope such as Lynx. Lynx is a NASA concept under study that will combine a < 1 arcsecond angular resolution optic with 100,000-pixel microcalorimeter array with energy resolution of deltaE_FWHM ~ 3 eV in the soft x-ray energy range. We present first results from hydras with 25-pixels for Lynx. Designs with absorbers on a 25 micron and 50 micron pitch are studied. Arrays incorporate, for the first time, microstrip buried wiring layers of suitable pitch and density required to readout a full-scale Lynx array. The resolution from the coadded energy histogram including all 25-pixels was deltaE_FWHM = 1.66+/-0.02 eV and 3.34+/-0.06 eV at an energy of 1.5 keV for the 25 micron and 50 micron absorber designs respectively. Position discrimination is demonstrated from parameterization of the rise-time., Comment: 7 pages, 5 figures. Low Temperature Detectors 18 Conference, Milan Italy

Published
2019
Full Text
View/download PDF

6. Quantum Efficiency Study and Reflectivity Enhancement of Au/Bi Absorbers

Author

Hummatov, R., Adams, J. S., Bandler, S. R., Barlis, A., Beaumont, S., Chang, M. P., Chervenak, J. A., Datesman, A. M., Eckart, M. E., Finkbeiner, F. M., Ha, J. Y., Kelley, R. L., Kilbourne, C. A., Miniussi, A. R., Porter, F. S., Sadleir, J. E., Sakai, K., Smith, S. J., Wakeham, N., Wassell, E. J., and Wollack, E. J.

Published
2020
Full Text
View/download PDF

8. Broadside-Coupled Niobium Flexible Cables

Author

Chervenak, J. A., primary, Wassell, E. J., additional, Adams, J. S., additional, Bandler, S. R., additional, Beaumont, S., additional, Borrelli, R., additional, Chang, M. P., additional, Doriese, W. B., additional, Finkbeiner, F. M., additional, Ha, J.-Y., additional, Hull, S., additional, Kelley, R. L., additional, Kilbourne, C. A., additional, Mateo, J. N., additional, Mikula, V., additional, Muramatsu, H., additional, Porter, F. S., additional, Rani, A., additional, Sakai, K., additional, Schmidt, D., additional, Smith, S. J., additional, Wakeham, N. A., additional, and Yoon, S. H., additional

Published
2023
Full Text
View/download PDF

9. Long Term Performance Stability of Transition-Edge Sensor Detectors

Author

Beaumont, S., primary, Adams, J. S., additional, Bandler, S. R., additional, Borrelli, R., additional, Chervenak, J. A., additional, Cumbee, R., additional, Finkbeiner, F. M., additional, Hull, S. V., additional, Kelley, R. L., additional, Kilbourne, C. A., additional, Muramatsu, H., additional, Porter, F. S., additional, Sakai, K., additional, Smith, S. J., additional, Wakeham, N. A., additional, Wassell, E. J., additional, and Yoon, S., additional

Published
2023
Full Text
View/download PDF

10. Effect of Space Radiation on Transition-Edge Sensor Detectors Performance

Author

Beaumont, S., primary, Lauenstein, J.-M., additional, Adams, J. S., additional, Bandler, S. R., additional, Chervenak, J. A., additional, Finkbeiner, F. M., additional, Hull, S. V., additional, Kelley, R. L., additional, Kilbourne, C. A., additional, Le Roch, A., additional, Muramatsu, H., additional, Porter, F. S., additional, Sakai, K., additional, Smith, S. J., additional, Wakeham, N. A., additional, Wassell, E. J., additional, and Yoon, S., additional

Published
2023
Full Text
View/download PDF

11. Toward Large Field-of-View High-Resolution X-ray Imaging Spectrometers: Microwave Multiplexed Readout of 28 TES Microcalorimeters

Author

Yoon, W., Adams, J. S., Bandler, S. R., Becker, D., Bennett, D. A., Chervenak, J. A., Datesman, A. M., Eckart, M. E., Finkbeiner, F. M., Fowler, J. W., Gard, J. D., Hilton, G. C., Kelley, R. L., Kilbourne, C. A., Mates, J. A. B., Miniussi, A. R., Moseley, S. H., Noroozian, O., Porter, F. S., Reintsema, C. D., Sadleir, J. E., Sakai, K., Smith, S. J., Stevenson, T. R., Swetz, D. S., Ullom, J. N., Vale, L. R., Wakeham, N. A., Wassell, E. J., and Wollack, E. J.

Published
2018
Full Text
View/download PDF

12. Mapping TES Temperature Sensitivity and Current Sensitivity as a Function of Temperature, Current, and Magnetic Field with IV Curve and Complex Admittance Measurements

Author

Zhou, Y., Ambarish, C. V., Gruenke, R., Jaeckel, F. T., Kripps, K. L., McCammon, D., Morgan, K. M., Wulf, D., Zhang, S., Adams, J. S., Bandler, S. R., Chervenak, J. A., Datesman, A. M., Eckart, M. E., Ewin, A. J., Finkbeiner, F. M., Kelley, R. L., Kilbourne, C. A., Miniussi, A. R., Porter, F. S., Sadleir, J. E., Sakai, K., Smith, S. J., Wakeham, N. A., Wassell, E. J., and Yoon, W.

Published
2018
Full Text
View/download PDF

13. Study of Dissipative Losses in AC-Biased Mo/Au Bilayer Transition-Edge Sensors

Author

Sakai, K., Adams, J. S., Bandler, S. R., Chervenak, J. A., Datesman, A. M., Eckart, M. E., Finkbeiner, F. M., Kelley, R. L., Kilbourne, C. A., Miniussi, A. R., Porter, F. S., Sadleir, J. S., Smith, S. J., Wakeham, N. A., Wassell, E. J., Yoon, W., Akamatsu, H., Bruijn, M. P., Gottardi, L., Jackson, B. D., van der Kuur, J., van Leeuwen, B. J., van der Linden, A. J., van Weers, H. J., and Kiviranta, M.

Published
2018
Full Text
View/download PDF

15. Characterizing Thermal Background Events for Athena X-IFU

Author

Hull, S. V., primary, Adams, J. S., additional, Bandler, S. R., additional, Beaumont, S., additional, Chervenak, J. A., additional, Cumbee, R., additional, Finkbeiner, F. M., additional, Ha, J. Y., additional, Kelley, R. L., additional, Kilbourne, C. A., additional, Porter, F. S., additional, Sakai, K., additional, Smith, S. J., additional, Wakeham, N. A., additional, Wassell, E. J., additional, and Yoon, S. H., additional

Published
2023
Full Text
View/download PDF

16. Demonstration of a Full-scale Brassboard TES Microcalorimeter Array for the Athena X-IFU

Author

Sakai, K., primary, Hull, S. V., additional, Adams, J. S., additional, Bandler, S. R., additional, Beaumont, S., additional, Borrelli, R. B., additional, Chervenak, J. A., additional, Cumbee, R. S., additional, Finkbeiner, F. M., additional, Ha, J. Y., additional, Kelley, R. L., additional, Kilbourne, C. A., additional, Leutenegger, M. A., additional, Mateo, J. N., additional, Muramatsu, H., additional, Porter, F. S., additional, Smith, S. J., additional, Wakeham, N. A., additional, Wassell, E. J., additional, Yoon, S. H., additional, and Eckart, M. E., additional

Published
2023
Full Text
View/download PDF

17. TES Pixel Optimization for the ATHENA X-IFU Instrument

Author

Wakeham, Nick, Adams, J. S, Bandler, S, Beaumont, S, Chang, M-P, Chervenak, J. A, Datesman, A, Eckart, M, Finkbeiner, F, Ha, J. Y, Hummatov, R, Kelley, R, Kilbourne, C, Miniussi, A, Porter, F. S, Sadleir, J. E, Sakai, K, Smith, S, Wassell, E. J, Gottardi, L, Akamatsu, H, Jackson, B, and van der Kuur, J

Subjects
Astrophysics, Instrumentation And Photography
Abstract

ATHENA is a European led x-ray observatory due for launch in the early 2030s. The X-ray Integral Field Unit (X-IFU) instrument on ATHENA will have an array of 3168 TES microcalorimeters, 2.5 eV resolution (at 7 keV), 5 arc second angular resolution and a 5 arc minute field of view. As one example, will allow unprecedented views of composition and dynamics of galaxy clusters.

Published
2019

18. Thermal Fluctuation Noise in Mo/Au Superconducting Transition-Edge Sensor Microcalorimeters

Author

Wakeham, N. A, Adams, J. S, Bandler, S. R, Beaumont, S, Chervenak, J. A, Datesman, A. M, Eckart, M. E, Finkbeiner, F. M, Hummatov, R, Kelley, R. L, Kilbourne, C. A, Miniussi, A. R, Porter, F. S, Sadleir, J. E, Sakai, K, Smith, S. J, and Wassell, E. J

Subjects
Astrophysics
Abstract

In many superconducting transition-edge sensor (TES) microcalorimeters, the measured electrical noise exceeds theoretical estimates based on a thermal model of a single body thermally connected to a heat bath. Here, we report on noise and complex impedance measurements of a range of designs of TESs made with a Mo/Au bilayer. We have fitted the measured data using a two-body model, where the x-ray absorber and the TES are connected by an internal thermal conductance Gae. We find that the so-called excess noise measured in these devices is consistent with the noise generated from the internal thermal fluctuations between the x-ray absorber and the TES. Our fitted parameters are consistent with the origin of Gae being from the finite thermal conductance of the TES itself. These results suggest that even in these relatively low resistance Mo/Au TESs, the internal thermal conductance of the TES may add significant additional noise and could account for all the measured excess noise. Furthermore, we find that around regions of the superconducting transition with rapidly changing derivative of resistance with respect to temperature, an additional noise mechanism may dominate. These observations may lead to a greater understanding of TES devices and allow the design of TES microcalorimeters with improved performance.

Published
2019
Full Text
View/download PDF

19. Microcalorimeter Array Development for the ATHENA X-Ray Integral Field Unit

Author

Smith, Stephen, Adams, J. S, Bandler, S. R, Chervenak, James A, Datesman, Aaron M, Eckart, M. E, Ewin, A. J, Finkbeiner, F. M, Hummatov, R, Kelley, R. L, Kilbourne, C. A, Miniussi, A. R, Porter, F. S, Sadleir, J. S, Sakai, K, Wakeham, N, Wassell, E. J, Akamatsu, H, Gottardi, L, den Hartog, R. H, Jackson, B. D, van der Kuur, J, Bennett, D. A, Doriese, W. R, Hilton, G. C, Swetz, D, and Ullom, J. N

Subjects
Astrophysics
Abstract

The X-ray integral field unit (X-IFU) for ESA's Athena X-ray observatory will consist of 3840 AC-biased transition edge sensors (TESs), read out using frequency domain multiplexing (FDM). In this paper we describe details of the latest pixels geometries that are being designed for the current baseline array configuration. This includes details on how important TES properties (transition parameters, thermal design of the pixels, absorber composition) are being optimized to meet the target energy resolution, count-rate and quantum efficiency. We also present the latest design optimizations specifically targeted at mitigating AC-bias phenomena in Mo/Au TESs that can degrade performance.

Published
2018

20. TES-Based X-ray Microcalorimeter Performances Under AC Bias and FDM for Athena

Author

Akamatsu, H., Gottardi, L., de Vries, C. P., Adams, J. S., Bandler, S. R., Bruijn, M. P., Chervenak, J. A., Eckart, M. E., Finkbeiner, F. M., Gao, J. R., den Herder, J.-W., den Hartog, R., Hoevers, H., Kelley, R. E., Khosropanah, P., Kilbourne, C. A., van der Kuur, J., Lee, S.-J., van den Linden, A. J., Porter, F. S., Ravensberg, K., Sadleir, J. E., Smith, S. J., Suzuki, T., Wassell, E. J., and Kiviranta, M.

Published
2016
Full Text
View/download PDF

21. The Effects of Normal Metal Stripes on TES Performance

Author

Wakeham, Nick, Adams, J. S, Bandler, S. R, Chervenak, J. A, Datesman, A. M, Eckart, M. E, Finkbeiner, F. M, Kelley, R. L, Kilbourne, C. A, Miniussi, A. R, Porter, F. S, Sadleir, J. S, Sakai, K, Smith, S. J, Wassell, E. J, and Yoon, W

Subjects
Metals And Metallic Materials, Astrophysics
Abstract

Exploring the effects of size and geometry of normal metal features on the transition shapes and performance of transition-edge sensor microcalorimeters. The spectral resolution of transition-edge sensor (TES) microcalorimeters is very sensitive to the specific dependencies of the resistance R in the superconducting transition on the current I, magnetic field B, and temperature T. In particular, it has been shown that transitions that are very steep in (R,T) space lead to a significant noise term, in excess of conventional expectations. This so-called unexplained noise is known to be reduced by the addition of normal metal stripes across the TES perpendicular to the direction of current flow. These normal metal stripes have been shown to drastically alter the oscillatory patterns seen in measurements of the critical current as a function of magnetic field. However, there are many remaining questions about the exact impact of the stripes on current distributions within the TES, the Fraunhofer pattern and, therefore, the shape of the R(I, B, T) surface. Through measurements of the resistance under DC bias of TES devices of various sizes, with different stripe patterns and dimensions, we will discuss how these stripes can affect the R(I, B, T) surface. In addition, using measurements and analysis of the noise spectra of various devices we will present how these changes to the stripe pattern may affect the performance of the TES. In particular, we will discuss strategies to reduce the presence of localized discontinuities in the derivative of R, associated with increased noise, while maintaining the globally low levels of unexplained noise currently achieved with conventional metal stripe patterns. Implementing these strategies is a path towards producing large arrays with highly uniform transitions and high spectral resolution. These large uniform arrays will be required for future x-ray astronomy applications, such as the X-IFU on ATHENA.

Published
2017

22. Refinement of Transition-Edge Sensor Dimensions for the X-Ray Integral Field Unit on ATHENA

Author

Wakeham, N. A., Adams, J. S., Bandler, S. R., Beaumont, S., Chervenak, J. A., Cumbee, R. S., Finkbeiner, F. M., Ha, J. Y., Hull, S., Kelley, R. L., Kilbourne, C. A., Porter, F. S., Sakai, K., Smith, S. J., Wassell, E. J., and Yoon, S.

Abstract

At NASA Goddard Space Flight Center, we have previously demonstrated a kilo-pixel array of transition-edge sensor (TES) microcalorimeters capable of meeting the energy resolution requirements of the future X-ray Integral Field Unit (X-IFU) instrument that is being developed for the Advanced Telescope for High ENergy Astrophysics (ATHENA) observatory satellite. The TES design in this array was a square device with side length of 50 μm. Here, we describe studies of TES designs with small variations of the dimensions, exploring lengths, parallel to the current direction, ranging from 75 μm to 50 μm and widths, perpendicular to the current direction, ranging from 50 μm to 15 μm. We describe how these changes impact transition properties, thermal conductance and magnetic field sensitivity. In particular, we show that using a TES with a length of 50 μm and width of 30 μm may be a promising route to reduce the maximum time-derivative of the TES current in an X-ray pulse and reduce the sensitivity of the TES to magnetic field.

Published
2023
Full Text
View/download PDF

23. Examination of Heatsinking in Thermally Multiplexed TES Arrays With Buried Wiring

Author

Muramatsu, H., Adams, J. S., Bandler, Simon R., Beaumont, S., Borrelli, R. B., Chervenak, J. A., Chang, M. P., Finkbeiner, F. M, Ha, J. Y., Hull, S. V., Kelley, R. L., Kilbourne, C. A., Mateo, J. N., Porter, F. S., Rani, A., Ryu, K., Sakai, K., Smith, S. J., Wakeham, N. A., Wassell, E. J., and Yoon, S. H.

Abstract

It is now possible to fabricate stacks of buried wires with extremely high density, perfect yield, and many layers using fine-line lithography and chemical mechanical polish. Such wiring in principle will enable large format arrays of fine pitch sensors. Buried wiring has the distinct advantage that additional metallization – such as metallic links in a thermal multiplexer (“hydra”) design and attachment points between absorbers and the substrate – are not limited in their placement. In close-packed arrays, thermal crosstalk occurs when a heat pulse in one device transmits through the dielectric connection and is absorbed in a neighbor. We seek to integrate Mo/Au transition edge sensors with such wiring but encounter limitations of fabrication options by the restriction of materials permitted to be used, including noble metals and certain dielectrics. In this paper we show measurement results of X-ray microcalorimeters with multi-stack buried wiring on a silicon nitride dielectric layer exploring new methods of integrating heat sinking. We attempt to mitigate thermal crosstalk channels by enhancing coupling of the emitted heat to a thick metallic heatsinking layer. We measure the thermal response in close packed hydra arrays in a variety of heatsinking configurations and show energy resolution and pulse response in these devices.

Published
2023
Full Text
View/download PDF

24. Transition-Edge Sensor Pixel Parameter Design of the Microcalorimeter Array for the X-Ray Integral Field Unit on Athena

Author

Smith, S. J, Adams, J. S, Bandler, S. R, Betancourt-Martinez, G. L, Chervenak, J. A, Chiao, M. P, Eckart, M. E, Finkbeiner, F. M, Kelley, R. L, Kilbourne, C. A, Miniussi, A. R, Porter, F. S, Sadleir, J. E, Sakai, K, Wakeham, N. A, Wassell, E. J, Yoon, W, Bennett, D. A, Doriese, W. B, Fowler, J. W, Hilton, G. C, Morgan, K. M, Pappas, C. G, Reintsema, C. N, Swetz, D. S, Ullom, J. N, Irwin, K. D, Akamatsu, H, Gottardi, L, den Hartog, R, Jackson, B. D, van der Kuur, J, Barret, D, and Peille, P

Subjects
Astrophysics
Abstract

The focal plane of the X-ray integral field unit (X-IFU) for ESA's Athena X-ray observatory will consist of approximately 4000 transition edge sensor (TES) x-ray microcalorimeters optimized for the energy range of 0.2 to 12 kiloelectronvolts. The instrument will provide unprecedented spectral resolution of approximately 2.5 electronvolts at energies of up to 7 kiloelectronvolts and will accommodate photon fluxes of 1 milliCrab (90 counts per second) for point source observations. The baseline configuration is a uniform large pixel array (LPA) of 4.28 arcseconds pixels that is read out using frequency domain multiplexing (FDM). However, an alternative configuration under study incorporates an 18 by × 18 small pixel array (SPA) of 2 arcseconds pixels in the central approximately 36 arcseconds region. This hybrid array configuration could be designed to accommodate higher fluxes of up to 10 milliCrabs (900 counts per second) or alternately for improved spectral performance (less than 1.5 electronvolts) at low count-rates. In this paper we report on the TES pixel designs that are being optimized to meet these proposed LPA and SPA configurations. In particular we describe details of how important TES parameters are chosen to meet the specific mission criteria such as energy resolution, count-rate and quantum efficiency, and highlight performance trade-offs between designs. The basis of the pixel parameter selection is discussed in the context of existing TES arrays that are being developed for solar and x-ray astronomy applications. We describe the latest results on DC biased diagnostic arrays as well as large format kilo-pixel arrays and discuss the technical challenges associated with integrating different array types on to a single detector die.

Published
2016
Full Text
View/download PDF

25. Large Format Transition Edge Sensor Microcalorimeter Arrays

Author

Chervenak, J. A, Adams, J. A, Bandler, S. b, Busch, S. E, Eckart, M. E, Ewin, A. E, Finkbeiner, F. M, Kilbourne, C. A, Kelley, R. L, Porst, J. P, Porter, F. S, Ray, C, Sadleir, J. E, Smith, S. J, and Wassell, E. J

Subjects
Electronics And Electrical Engineering
Abstract

We have produced a variety of superconducting transition edge sensor array designs for microcalorimetric detection of x-rays. Designs include kilopixel scale arrays of relatively small sensors (approximately 75 micron pitch) atop a thick metal heat sinking layer as well as arrays of membrane-isolated devices on 250 micron and up to 600 micron pitch. We discuss fabrication and performance of microstripline wiring at the small scales achieved to date. We also address fabrication issues with reduction of absorber contact area in small devices.

Published
2012

26. Performance of Large Format Transition Edge Sensor Microcalorimeter Arrays

Author

Chervenak, J. A, Adams, J. A, Bandler, S. B, Busch, S. E, Eckart, M. E, Ewin, A. E, Finkbeiner, F. M, Kilbourne, C. A, Kelley, R. L, Porst, J. P, Porter, F. S, Ray, C, Sadleir, J. E, Smith, S. J, and Wassell, E. J

Subjects
Electronics And Electrical Engineering
Abstract

We have produced a variety of superconducting transition edge sensor array designs for microcalorimetric detection of x-rays. Arrays are characterized with a time division SQUID multiplexer such that greater than 10 devices from an array can be measured in the same cooldown. Designs include kilo pixel scale arrays of relatively small sensors (-75 micron pitch) atop a thick metal heatsinking layer as well as arrays of membrane-isolated devices on 250 micron and up to 600 micron pitch. We discuss fabrication and performance of microstripline wiring at the small scales achieved to date. We also address fabrication issues with reduction of absorber contact area in small devices.

Published
2012

27. Development of Kilo-Pixel Arrays of Transition-Edge Sensors for X-Ray Spectroscopy

Author

Adams, J. S, Bandler, S. R, Busch, S. E, Chervenak, J. A, Chiao, M. P, Eckart, M. E, Ewin, A. J, Finkbeiner, F. M, Kelley, R. L, Kelly, D. P, Kilbourne, C. A, Leutenegger, M. A, Porst, J.-P, Porter, F. S, Ray, C. A, Sadleir, J. E, Smith, S. J, Wassell, E. J, Doriese, W. B, Fowler, J. W, Hilton, G. C, Irwin, K. D, Reintsema, C. D, Smith, D. R, and Swetz, D. S

Subjects
Astronomy
Abstract

We are developing kilo-pixel arrays of transition-edge sensor (TES) microcalorimeters for future X-ray astronomy observatories or for use in laboratory astrophysics applications. For example, Athena/XMS (currently under study by the european space agency) would require a close-packed 32x32 pixel array on a 250-micron pitch with < 3.0 eV full-width-half-maximum energy resolution at 6 keV and at count-rates of up to 50 counts/pixel/second. We present characterization of 32x32 arrays. These detectors will be readout using state of the art SQUID based time-domain multiplexing (TDM). We will also present the latest results in integrating these detectors and the TDM readout technology into a 16 row x N column field-able instrument.

Published
2012

28. Advances in Small Pixel TES-Based X-Ray Microcalorimeter Arrays for Solar Physics and Astrophysics

Author

Bandler, S. R, Adams, J. S, Bailey, C. N, Busch, S. E, Chervenak, J. A, Eckart, M. E, Ewin, A. E, Finkbeiner, F. M, Kelley, R. L, Kelly, D. P, Kilbourne, C. A, Porst, J.-P, Porter, F. S, Sadleir, J. E, Smith, S. J, and Wassell, E. J

Subjects
Instrumentation And Photography
Abstract

We are developing small-pixel transition-edge-sensor (TES) for solar physics and astrophysics applications. These large format close-packed arrays are fabricated on solid silicon substrates and are designed to accommodate count-rates of up to a few hundred counts/pixel/second at a FWHM energy resolution approximately 2 eV at 6 keV. We have fabricated versions that utilize narrow-line planar and stripline wiring. We present measurements of the performance and uniformity of kilo-pixel arrays, incorporating TESs with single 65-micron absorbers on a 7s-micron pitch, as well as versions with more than one absorber attached to the TES, 4-absorber and 9-absorber "Hydras". We have also fabricated a version of this detector optimized for lower energies and lower count-rate applications. These devices have a lower superconducting transition temperature and are operated just above the 40mK heat sink temperature. This results in a lower heat capacity and low thermal conductance to the heat sink. With individual single pixels of this type we have achieved a FWHM energy resolution of 0.9 eV with 1.5 keV Al K x-rays, to our knowledge the first x-ray microcalorimeter with sub-eV energy resolution. The 4-absorber and 9-absorber versions of this type achieved FWHM energy resolutions of 1.4 eV and 2.1 eV at 1.5 keV respectively. We will discuss the application of these devices for new astrophysics mission concepts.

Published
2012

29. Multi-Absorber Transition-Edge Sensors for X-Ray Astronomy Applications

Author

Smith, S. J, Adams, J. S, Bandler, S. R, Busch, S. E, Chervenak, J. A, Eckart, M. E, Ewin, A. J, Finkbeiner, F. M, Kelley, R. L, Kelly, D. P, Kilbourne, C. A, Porst, J. P, Porter, F. S, Sadleir, J. E, and Wassell, E. J

Subjects
Instrumentation And Photography
Abstract

We are developing multi-absorber Transition-Edge Sensors (TESs) for applications in x-ray astronomy. These position-sensitive devices consist of multiple x-ray absorbers each with a different thermal coupling to a single readout TES. Heat diffusion between the absorbers and the TES gives rise to a characteristic pulse shape corresponding to each absorber element and enables position discrimination. The development of these detectors is motivated by a desire to maximize focal plane arrays with the fewest number of readout channels. In this contribution we report on the first results from devices consisting of nine) 65 X 65 sq. microns Au x-ray absorbers) 5 microns thick. These are coupled to a single 35 X 35 sq. microns Mo/Au bilayer TES. These devices have demonstrated full-width-half-maximum (FWHM) energy resolution of 2.1 eV at 1.5 keV) 2.5 eV at 5.9 keV and 3.3 eV at 8 keV. This is coupled with position discrimination from pulse shape over the same energy range. We use a finite-element model to reproduce the measured pulse shapes and investigate the detector non-linearity with energy) which impacts on the devices position sensitivity and energy resolution.

Published
2012

30. Effects of Normal Metal Features on Superconducting Transition-Edge Sensors

Author

Wakeham, Nicholas, Adams, J. S., Bandler, S. R., Chervenak, J. A., Datesman, A. M., Eckart, M. E., Finkbeiner, F. M., Kelley, R. L., Kilbourne, C. A., Miniussi, Antoine, Porter, F. S., Sadleir, J. E., Sakai, Kazuhiro, Smith, Stephen J., Wassell, E. J., and Yoon, W.

Abstract

In transition-edge sensors (TESs), the addition of normal metal stripes on top of the superconducting bilayer, perpendicular to the current direction, is known to globally alter the sensitivity of the resistance R to changes in temperature T and current I. Here, we describe measurements of the dependence of the TES current on magnetic field B, bath temperature and voltage bias in devices with various numbers of stripes. We show that the normal metal features have a profound effect on the appearance of localized regions of very large (T/R) dR/dT . We associate this with changes in the current distribution and corresponding changes in the oscillatory pattern of I(B). 140 ��m TESs with no stripes are found to have a relatively smooth resistive transition and sufficiently low noise that the measured energy resolution is 1.6 eV for X-rays of 1.5 keV. The predicted energy resolution at 6 keV is better than 2 eV, once the heat capacity is optimized for these higher energies.

Published
2018
Full Text
View/download PDF

31. Transition-edge sensor pixel parameter design of the microcalorimeter array for the x-ray integral field unit on Athena

Author

Smith, S. J., additional, Adams, J. S., additional, Bandler, S. R., additional, Betancourt-Martinez, G. L., additional, Chervenak, J. A., additional, Chiao, M. P., additional, Eckart, M. E., additional, Finkbeiner, F. M., additional, Kelley, R. L., additional, Kilbourne, C. A., additional, Miniussi, A. R., additional, Porter, F. S., additional, Sadleir, J. E., additional, Sakai, K., additional, Wakeham, N. A., additional, Wassell, E. J., additional, Yoon, W., additional, Bennett, D. A., additional, Doriese, W. B., additional, Fowler, J. W., additional, Hilton, G. C., additional, Morgan, K. M., additional, Pappas, C. G., additional, Reintsema, C. N., additional, Swetz, D. S., additional, Ullom, J. N., additional, Irwin, K. D., additional, Akamatsu, H., additional, Gottardi, L., additional, den Hartog, R., additional, Jackson, B. D., additional, van der Kuur, J., additional, Barret, D., additional, and Peille, P., additional

Published
2016
Full Text
View/download PDF

33. Advances in Small Pixel TES-Based X-Ray Microcalorimeter Arrays for Solar Physics and Astrophysics

Author

Bandler, S. R., primary, Adams, J. S., additional, Bailey, C. N., additional, Busch, S. E., additional, Chervenak, J. A., additional, Eckart, M. E., additional, Ewin, A. E., additional, Finkbeiner, F. M., additional, Kelley, R. L., additional, Kelly, D. P., additional, Kilbourne, C. A., additional, Porst, Jan-Patrick, additional, Porter, F. S., additional, Sadleir, J. E., additional, Smith, S. J., additional, and Wassell, E. J., additional

Published
2013
Full Text
View/download PDF

34. Development of TES Microcalorimeter Arrays for the Micro-X Sounding Rocket Experiment

Author

Eckart, M. E., primary, Adams, J. S., additional, Bandler, S. R., additional, Busch, S. E., additional, Chervenak, J. A., additional, Ewin, A. J., additional, Finkbeiner, F. M., additional, Kelley, R. L., additional, Kilbourne, C. A., additional, Porter, F. S., additional, Porst, J.-P., additional, Sadleir, J. E., additional, Smith, S. J., additional, Wassell, E. J., additional, and Figueroa-Feliciano, E., additional

Published
2013
Full Text
View/download PDF

36. Transition-edge sensor pixel parameter design of the microcalorimeter array for the x-ray integral field unit on Athena

Author

den Herder, Jan-Willem A., Takahashi, Tadayuki, Bautz, Marshall, Smith, S. J., Adams, J. S., Bandler, S. R., Betancourt-Martinez, G. L., Chervenak, J. A., Chiao, M. P., Eckart, M. E., Finkbeiner, F. M., Kelley, R. L., Kilbourne, C. A., Miniussi, A. R., Porter, F. S., Sadleir, J. E., Sakai, K., Wakeham, N. A., Wassell, E. J., Yoon, W., Bennett, D. A., Doriese, W. B., Fowler, J. W., Hilton, G. C., Morgan, K. M., Pappas, C. G., Reintsema, C. N., Swetz, D. S., Ullom, J. N., Irwin, K. D., Akamatsu, H., Gottardi, L., den Hartog, R., Jackson, B. D., van der Kuur, J., Barret, D., and Peille, P.

Published
2016
Full Text
View/download PDF

37. Fabrication of X-ray Microcalorimeter Focal Planes Composed of Two Distinct Pixel Types.

Author

Wassell EJ, Adams JS, Bandler SR, Betancourt-Martinez GL, Chiao MP, Chang MP, Chervenak JA, Datesman AM, Eckart ME, Ewin AJ, Finkbeiner FM, Ha JY, Kelley R, Kilbourne CA, Miniussi AR, Sakai K, Porter F, Sadleir JE, Smith SJ, Wakeham NA, and Yoon W

Abstract

We are developing superconducting transition-edge sensor (TES) microcalorimeter focal planes for versatility in meeting 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 sub-arrays: 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 (X-IFU) instrument on the European Space Agency's Athena mission. We have based the sub-arrays 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 micron scales 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 micron square absorber. To tune the parameters of each sub-array 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 heatsinking of the two types of pixel into the same focal plane consistent with the requirements for each sub-array, including the limiting of thermal crosstalk. We also discuss fabrication process modifications for tuning the intrinsic transition temperature (T c ) 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
2017
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results