Your search keyword '"Vaccaro, D."' showing total 6 results

1. Developments on Frequency Domain Multiplexing Readout for Large Arrays of Transition-Edge Sensor X-ray Micro-calorimeters.

Author

Vaccaro, D., Akamatsu, H., Gottardi, L., de Wit, M., Bruijn, M. P., van der Kuur, J., Nagayoshi, K., Taralli, E., Ravensberg, K., Gao, J.-R., and den Herder, J. W. A.

Subjects

*SENSOR arrays, *SUPERCONDUCTING quantum interference devices, *MULTIPLEXING, *DIGITAL electronics, *X-rays

Abstract

At SRON, we have been developing X-ray TES micro-calorimeters as backup technology for the X-ray Integral Field Unit (X-IFU) of the Athena mission, demonstrating excellent resolving powers both under DC and AC bias. We also developed a frequency-domain multiplexing (FDM) readout technology, where each TES is coupled to a superconducting band-pass LC resonator and AC biased at MHz frequencies through a common readout line. The TES signals are summed at the input of a superconducting quantum interference device (SQUID), which performs a first amplification at cryogenic stage. Custom analog front-end electronics and digital boards take care of further amplifying the signals at room temperature and of the modulation/demodulation of the TES signals and bias carrier, respectively. We report on the most recent developments on our FDM technology, which involves a two-channel demonstration with a total of 70 pixels with a summed energy resolution of 2.34 ± 0.02 eV at 5.9 keV without spectral performance degradation with respect to single-channel operation. Moreover, we discuss prospects towards the scaling-up to a larger multiplexing factor up to 78 pixels per channel in a 1–6 MHz readout bandwidth. [ABSTRACT FROM AUTHOR]

Published

2024

2. High aspect ratio transition edge sensors for x-ray spectrometry.

Author

de Wit, M., Gottardi, L., Taralli, E., Nagayoshi, K., Ridder, M. L., Akamatsu, H., Bruijn, M. P., D'Andrea, M., van der Kuur, J., Ravensberg, K., Vaccaro, D., Visser, S., Gao, J. R., and den Herder, J.-W. A.

Subjects

SUPERCONDUCTING transitions, X-rays, SPECTROMETRY, CRITICAL temperature, DETECTORS

Abstract

We are developing large Transition Edge Sensor (TES) arrays in combination with a frequency domain multiplexing readout for the next generation of X-ray space observatories. For operation under an AC-bias, the TESs have to be carefully designed and optimized. In particular, the use of high aspect ratio devices will help us to mitigate non-ideal behavior due to the weak-link effect. In this paper, we present a full characterization of a TES array containing five different device geometries, with aspect ratios (width:length) ranging from 1:2 up to 1:6. The complex impedance of all geometries is measured in different bias configurations to study the evolution of the small-signal limit superconducting transition parameters α and β , as well as the excess noise. We show that high aspect ratio devices with properly tuned critical temperatures (around 90 mK) can achieve excellent energy resolution, with an array average of 2.03 ± 0.17 eV at 5.9 keV and a best achieved resolution of 1.63 ± 0.17 eV. This demonstrates that AC-biased TESs can achieve a very competitive performance compared to DC-biased TESs. The results have motivated a push to even more extreme device geometries currently in development. [ABSTRACT FROM AUTHOR]

Published

2020

3. Background rates of x-ray transition-edge sensor micro-calorimeters under a frequency domain multiplexing readout for solar axion-like particles' detection.

Author

Vaccaro, D., Gottardi, L., Akamatsu, H., van der Kuur, J., Nagayoshi, K., Taralli, E., de Wit, M., Ravensberg, K., Gao, J. R., and den Herder, J. W. A.

Subjects

*AXIONS, *X-rays, *ASTRONOMICAL observatories, *DETECTORS

Abstract

We report on the x-ray background rate measured with transition-edge sensors (TES) micro-calorimeters under frequency-domain multiplexing (FDM) readout as a possible technology for future experiments aiming at a direct detection of axion-like particles. Future axion helioscopes will make use of large magnets to convert axions into photons in the keV range and x-ray detectors to observe them. To achieve this, a detector array with high spectral performance and extremely low background is necessary. TES are single-photon, non-dispersive, high-resolution micro-calorimeters and represent a possible candidate for this application. We have been developing x-ray TES micro-calorimeters and an FDM readout technology in the framework of the space-borne x-ray astronomical observatories. We show that the current generation of our detectors is already a promising technology for a possible axion search experiment, having measured an x-ray background rate of 2.2(2) × 10−4 cm−2 s−1 keV−1 with a cryogenic demonstrator not optimized for this specific application. We then make a prospect to further improve the background rate down to the required value (< 1 0 − 7 cm−2 s−1 keV−1) for an axion-search experiment, identifying no fundamental limits to reach such a level. [ABSTRACT FROM AUTHOR]

Published

2023

4. Lateral Inverse Proximity Effect in Ti/Au Transition Edge Sensors.

Author

Nagayoshi, K., de Wit, M., Taralli, E., Visser, S., Ridder, M. L., Gottardi, L., Akamatsu, H., Vaccaro, D., Bruijn, M. P., Gao, J.-R., and den Herder, J. W. A.

Subjects

DETECTORS, MICROSTRUCTURE, X-rays

Abstract

We report measured T c of superconducting Ti/Au bilayer strips with a width W varying from 5 to 50 µm. The strips were fabricated based on a Ti/Au bilayer that consists of a 41-nm-thick Ti layer to which a 280-nm-thick Au layer was added. We find that the T c drops as W decreases and the declining trend almost perfectly follows T c / [ mK ] = - 738.4 [ μ m ] 2 / W 2 + 91.0 , where T c (W = ∞) of 91 mK is consistent with the intrinsic T c of the bilayer. The result is interpreted as a consequence of the lateral inverse proximity effect originated in normal-metal microstructures, namely Au overhangs that exist at the edges of the Ti/Au bilayer. The T c shift from the intrinsic T c should be anticipated in addition to the longitudinal proximity effect from superconducting Nb leads when one designs Ti/Au TESs. [ABSTRACT FROM AUTHOR]

Published

2022

5. Small Size Transition-Edge Sensors for Future X-Ray Applications.

Author

Taralli, E., de Wit, M., Gottardi, L., Nagayoshi, K., Visser, S., Ridder, M. L., Akamatsu, H., Vaccaro, D., Bruijn, M. P., Gao, J. R., and den Herder, J-W

Subjects

X-rays, SPACE telescopes, FREQUENCY standards, DETECTORS, OBSERVATORIES, SMALL-angle X-ray scattering

Abstract

Large arrays of transition edge sensors (TESs) are the baseline for a number of future space observatories. For instance, the X-ray integral field unit (X-IFU) instrument on board the ATHENA space telescope will consist of ∼ 3000 TESs with high energy resolution ( 2 eV at X-ray energies up to 7 keV). In this contribution we report on the development of an X-ray TES array as a backup detector technology for X-IFU. The baseline readout technology for this mission is time domain multiplexing where the detectors are DC biased. Specifically, we report on the characterization of four different Ti/Au TESs with the following dimensions ( L × W ): 30 × 15 , 30 × 30 , 50 × 25 and 50 × 50 μ m 2 , all of which are coupled to a 2.3 μ m thick Au absorber of area 240 × 240 μ m 2 . We have performed our characterization using our standard frequency domain multiplexing readout connecting only pixels at low frequencies, where nonlinear effects due to the AC biasing are negligible. Promising energy resolution has been obtained, for instance 1.78 ± 0.10 eV and 1.75 ± 0.10 eV at 5.9 keV for the 50 × 25 and 50 × 50 μ m 2 detectors respectively. Uniformity over a kilo-pixel array (of detectors with the same geometry) has been also studied, confirming the high quality of our fabrication process. [ABSTRACT FROM AUTHOR]

Published

2022

6. Frequency shift algorithm: Application to a frequency-domain multiplexing readout of x-ray transition-edge sensor microcalorimeters.

Author

Vaccaro, D., Akamatsu, H., van der Kuur, J., van der Hulst, P., Nieuwenhuizen, A. C. T., van Winden, P., Gottardi, L., den Hartog, R., Bruijn, M. P., D'Andrea, M., Gao, J. R., den Herder, J. W. A., Hoogeveen, R. W. M., Jackson, B., van der Linden, A. J., Nagayoshi, K., Ravensberg, K., Ridder, M. L., Taralli, E., and de Wit, M.

Subjects

*INTERMODULATION distortion, *MULTIPLEXING, *CALORIMETERS, *X-rays, *DETECTOR circuits

Abstract

In the frequency-domain multiplexing (FDM) scheme, transition-edge sensors (TESs) are individually coupled to superconducting LC filters and AC biased at MHz frequencies through a common readout line. To make efficient use of the available readout bandwidth and to minimize the effect of non-linearities, the LC resonators are usually designed to be on a regular grid. The lithographic processes, however, pose a limit on the accuracy of the effective filter resonance frequencies. Off-resonance bias carriers could be used to suppress the impact of intermodulation distortions, which, nonetheless, would significantly affect the effective bias circuit and the detector spectral performance. In this paper, we present a frequency shift algorithm (FSA) to allow off-resonance readout of TESs, while preserving the on-resonance bias circuit and spectral performance, demonstrating its application to the FDM readout of an x-ray TES microcalorimeter array. We discuss the benefits in terms of mitigation of the impact of intermodulation distortions at the cost of increased bias voltage and the scalability of the algorithm to multi-pixel FDM readout. We show that with FSA, in the multi-pixel and frequencies shifted on-grid, the line noises due to intermodulation distortion are placed away from the sensitive region in the TES response and the x-ray performance is consistent with the single-pixel, on-resonance level. [ABSTRACT FROM AUTHOR]

Published

2021