Your search keyword '"X-ray detection"' showing total 12 results

1. Simulation Software for Transition-Edge Sensor Performance Prediction.

Author

Garrone, H., Pepe, C., Reineri, A., Monticone, E., Filippo, R., and Rajteri, M.

Subjects

*SIMULATION software, *PHOTON detectors, *X-ray detection, *METALLIC films, *DETECTORS, *EMPIRICAL research

Abstract

Transition-edge sensors (TES) are outstanding calorimeters based on the steep superconductive transition of a metallic film. Among other photon detectors, they are renowned for the fine energy resolution, the photon-number resolving (PNR) capability and an extremely low dark count rate. Due to the broad detection spectrum, from gamma-ray to visible and submillimetre wavelengths, TESs are highly sought-after in a great variety of fields, such as X-ray detection and quantum technologies. Each of these fields demands a step forward in TESs performance with regards to the recovery time and energy resolution. Here we present a program, primarily capable of predicting the performance of TESs. Using established theoretical and empirical methods we developed a software that allows the users to choose active area, thickness, and material composition of a TES and to calculate its performance. Furthermore, the software can simulate TES properties at different working points. The aim of the software is to minimize the production cost and speed up the overall process for the creation of new devices with improved performance. [ABSTRACT FROM AUTHOR]

Published

2022

2. X-Ray Induced Secondary Particle Counting With Thin NbTiN Nanowire Superconducting Detector.

Author

Branny, Artur, Didier, Pierre, Zichi, Julien, Zadeh, Iman E., Steinhauer, Stephan, Zwiller, Val, and Vogt, Ulrich

Subjects

*NANOWIRES, *PHOTON detectors, *X-rays, *DIELECTRIC films, *DETECTORS

Abstract

We characterized the performance of abiased superconducting nanowire to detect X-ray photons. The device, made of a 10 nm thin NbTiN film and fabricated on a dielectric substrate (SiO2, Nb3O5) detected 1000 times larger signal than anticipated from direct X-ray absorption. We attributed this effect to X-ray induced generation of secondary particles in the substrate. The enhancement corresponds to an increase in the flux by the factor of 3.6, relative to a state-of-the-art commercial X-ray silicon drift detector. The detector exhibited 8.25 ns temporal recovery time and 82 ps timing resolution, measured using optical photons. Our results emphasize the importance of the substrate in superconducting X-ray single photon detectors. [ABSTRACT FROM AUTHOR]

Published

2021

3. Development of Cryogenic X-Ray Detectors Based on Mo/Au Transition Edge Sensors.

Author

Pobes, Carlos, Fabrega, Lourdes, Camon, Agustin, Casan-Pastor, Nieves, Strichovanec, Pavel, Sese, Javier, Moral-Vico, Javier, and Jaudenes Calleja, Rosa Maria

Subjects

*X-ray detection, *RADIATIVE transitions, *PROXIMITY effect (Superconductivity), *ELECTROPLATING chemicals, *X-ray spectroscopy

Abstract

We report on the development of Mo/Au based transition edge sensors (TESs) aimed at soft X-ray detection. TESs of different sizes with Tc ∼ 100 mK and very narrow transitions have been fabricated. Dark characterization based on I–V, complex impedance, and noise measurements has allowed us to obtain their basic functional parameters at different bath temperatures and operating points. Electrodeposited Bi films, to be used as X-ray absorbers, have been developed and characterized. [ABSTRACT FROM PUBLISHER]

Published

2017

4. SQUID based W-Al quasiparticle-trap assisted superconducting transition edge sensor with position resolution.

Author

Sae Woo Nam, Brink, P.L., Cabrera, B., Chugg, B., Clarke, R.M., Davies, A.K., and Young, B.A.

Subjects

*SUPERCONDUCTING quantum interference devices, *QUASIPARTICLES, *QUASIPARTICLE-phonon model, *ELECTRICAL resistivity, *SINGLE crystals

Abstract

We have demonstrated a new type of phonon sensor for cryogenic particle detectors with high-bandwidth SQUID readout. Our Quasiparticle-trap assisted Electrothermal feedback Transition edge sensor (QET) utilizes aluminum quasiparticle traps attached to a tungsten superconducting transition edge sensor patterned on a silicon substrate. The tungsten lines are voltage biased and self-regulate in the transition region. Phonons from particle interactions in the silicon deposit energy into the creating quasiparticles. The quasiparticles are trapped into the tungsten and cause its electrical resistance to increase. The resulting decrease in current through the sensor is measured with a DC SQUID array. We have been able to demonstrate xy-position resolution of /spl sim/0.3 mm for 6 keV X-rays from an /sup 55/Fe source in a 2 cm/spl times/2 cm/spl times/4 mm (4 g) detector. We describe our optimizations of the sensor design for improved energy and position. By simultaneously measuring the ionization yield we have demonstrated discrimination between electron and nuclear recoil events in a 100 g Si detector for the CDMS (Cryogenic Dark Matter Search) experiment. [ABSTRACT FROM PUBLISHER]

Published

1997

5. High-resolution superconducting X-ray spectrometers with an active area of 282 /spl mu/m/spl times/282 /spl mu/m.

Author

Mears, C.A., Labov, S.E., Frank, M., Netel, H., Hiller, L.J., Lindeman, M.A., Chow, D., and Barfknecht, A.T.

Subjects

*SUPERCONDUCTORS, *TUNNEL junctions (Materials science), *SUPERCONDUCTING quantum interference devices, *X-ray spectrometers, *X-ray absorption

Abstract

Superconducting tunnel junctions coupled to superconducting absorbers may be used as high-resolution, high-efficiency X-ray spectrometers. We have tested devices with niobium X-ray absorbing layers coupled to aluminum layers that serve as quasiparticle traps. In this work we measure the current pulses from a large-area tunnel junction using an amplifier based on an array of 100 SQUIDs. Using this amplifier and a 282 /spl mu/m/spl times/282 /spl mu/m junction, we have measured an energy resolution of 19 eV FWHM for 1.5 keV X-rays and 21 eV for 2.6 keV X-rays. The area of this junction is eight times the area of any junction previously measured to have such high energy resolution. [ABSTRACT FROM PUBLISHER]

Published

1997

6. Superconducting tunnel junctions on Nb- and Ta-single crystal substrates for X-ray spectrometry.

Author

Bruijn, M.P., Kiewiet, F.B., van den Berg, M.L., Luiten, O.J., de Korte, P.A.J., Brons, C.G.S., Hamster, A.W., and Flokstra, J.

Subjects

*TUNNEL junctions (Materials science), *SUPERCONDUCTIVE tunnelling, *SINGLE crystals, *NIOBIUM, *ELECTRIC potential measurement

Abstract

We present the first high quality Nb/Al-based tunnel junctions, fabricated with a superconducting interface onto single crystal substrates of Nb and Ta. Current-voltage measurements down to 1.4 K show a subgap current which is dominated by thermal excitation of quasiparticles, no ohmic or superconducting leakages could be observed. The fabrication process and development steps, such as preparation of ultra-smooth crystal surfaces are described. [ABSTRACT FROM PUBLISHER]

Published

1997

7. Inhomogeneous response of superconducting tunnel junctions with a killed electrode for X-ray spectroscopy.

Author

van den Berg, M.L., Bruijn, M.P., Gomez, J., Kiewiet, F.B., de Korte, P.A.J., van Lieshout, H.L., Luiten, O.J., Martin, J., le Grand, J.B., Schroeder, T., and Huebener, R.P.

Subjects

*SUPERCONDUCTING photodetectors, *TUNNEL junction devices, *QUASIPARTICLES, *SCANNING electron microscopy, *QUANTUM tunneling

Abstract

Nb-based superconducting tunnel junctions are being developed as high energy resolution X-ray detectors. Unfortunately, loss of excess quasiparticles at the edges, combined with lateral diffusion, results in an inhomogeneous response. To study this degradation of energy resolution, we manufactured detectors with a Ta trap in the top or bottom electrode away from the tunneling barrier. Excess quasiparticles in this so-called killed electrode will be trapped effectively and thus removed from the tunneling process. The X-ray spectra of the active electrode can be fitted with a model based on classical diffusion of quasiparticles. On junctions with a killed bottom electrode also Low Temperature Scanning Electron Microscopy (LTSEM) measurements have been performed. The X-ray spectra and the LTSEM scans are consistent with each other and with the model. The energy resolution of the junctions presented here is limited by loss of quasiparticles at the edges. [ABSTRACT FROM PUBLISHER]

Published

1997

8. Development of a new superconducting detector for the ultra-violet and soft X-ray regimes.

Author

Koller, D., Van Vechten, D., Blamire, M.G., Wood, K.S., Fritz, G.G., Horwitz, J.S., Daly, G.M., Thrasher, J.B., Pinto, J.F., Gyulamiryan, A.L., Vartanyan, V.H., Akopyan, R., and Gulian, A.M.

Subjects

*SUPERCONDUCTORS, *HYPERSPECTRAL imaging systems, *SINGLE photon generation, *X-ray detection, *MAGNETIC fields, *EQUIPMENT & supplies

Abstract

UV and X-ray astronomy need hyperspectral imaging devices, i.e. large format (1000/spl times/1000) arrays of pixels in which each single-photon event is tagged with spectral information. Such devices permit multicolor imagery and surveys to be obtained with a single camera. Here we discuss the first-stage of development of a new generation of UV/X-ray detectors that will provide 0.1-0.01% energy resolution in an array format. [ABSTRACT FROM PUBLISHER]

Published

1997

9. Single photon imaging X-ray spectrometers using low noise current preamplifiers with dc voltage bias.

Author

Friedrich, S., Segall, K., Gaidis, M.C., Wilson, C.M., Prober, D.E., Kindlmann, P.J., Szymkowiak, A.E., and Moseley, S.H.

Subjects

*SUPERCONDUCTING photodetectors, *X-ray detection, *BANDWIDTHS, *BROADBAND communication systems, *STREAMING media, *ELECTRONS, *ELECTRONIC noise, *MATHEMATICAL models, *EQUIPMENT & supplies

Abstract

We have developed superconducting single-photon imaging X-ray detectors with an energy resolution of 54 eV at 6 keV and a spatial resolution of 1 /spl mu/m over an effective length of 40 /spl mu/m. They utilize a current-sensitive low-noise preamplifier with a dc voltage bias. It has a signal bandwidth of 300 kHz, current noise of i/sub n/=0.26 pA//spl radic/(Hz) and voltage noise of e/sub n/=0.5 nV//spl radic/(Hz) with an input capacitance of 200 pF under operating conditions. Injected pulses with a charge Q=3.7/spl middot/10/sup 6/ electrons have been measured with a standard deviation /spl sigma/Q=3400 electrons, corresponding to an electronic noise of 13 eV at 6 keV. [ABSTRACT FROM PUBLISHER]

Published

1997

10. Empirical characteristics of tunnel junctions for X-ray detection.

Author

Ishibashi, K., Kishimoto, T., Maehata, K., Hashimoto, M., and Matsumoto, Y.

Subjects

*X-ray detection, *TUNNEL junction devices, *BAND gaps, *ELECTRONIC band structure, *SUPERCONDUCTORS, *EQUIPMENT & supplies

Abstract

Superconducting tunnel junctions show an excellent energy resolution in X-ray detection. A simple procedure is employed to give an overview of the detector characteristics regardless of superconductor materials such as Al, Sn and Nb. By introducing an empirical relationship between junction parameters, the detector characteristics of signal magnitude and energy resolution are reproduced to an acceptable degree. This method gives helpful suggestion for understanding detector performance, and also serves as a guide line for designing tunnel junctions. [ABSTRACT FROM PUBLISHER]

Published

1997

11. Characteristics of large Nb-based tunnel junctions for X-ray detection.

Author

Maehata, K., Ishibashi, K., Nakagawa, H., Akoh, H., Joosse, E., Takada, S., and Katagiri, M.

Subjects

*TUNNEL junctions (Materials science), *NIOBIUM, *MAGNETIC fields, *X-ray spectra, *SUPERCONDUCTORS

Abstract

A high quality Nb-based tunnel junction with a dimension of 200 /spl mu/m/spl times/200 /spl mu/m was tested by irradiating with X-rays. Two kinds of stable operation modes were observed by applying a magnetic field with different ramping speeds. The junction exhibited a good response to X-rays of 5.9 keV, and FWHM (full width at half maximum) of 93 eV was obtained. [ABSTRACT FROM PUBLISHER]

Published

1997

12. Proximity effect and hot-electron diffusion in Ag/Al/sub 2/O/sub 3//Al tunnel junctions.

Author

Netel, H., Jochum, J., Labov, S.E., Mears, C.A., Frank, M., Chow, D., Lindeman, M.A., and Hiller, L.J.

Subjects

*TUNNEL junctions (Materials science), *SUPERCONDUCTORS, *SUPERCONDUCTING films, *FABRICATION (Manufacturing), *HOT carriers, *ELECTRON diffusion

Abstract

We have fabricated Ag/Al/sub 2/O/sub 3//Al tunnel junctions on Si substrates using a new process. This process was developed to fabricate superconducting tunnel junctions (STJs) on the surface of a superconductor. These junctions allow us to study the proximity effect of a superconducting Al film on a normal metal trapping layer. In addition, these devices allow us to measure the hot-electron diffusion constant using a single junction. Lastly these devices will help us optimize the design and fabrication of tunnel junctions on the surface of high-Z, ultra-pure superconducting crystals. [ABSTRACT FROM PUBLISHER]

Published

1997