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175 results on '"Cantor, Robin"'

1. Signal processing and spectral modeling for the BeEST experiment

Author

Kim, Inwook, Bray, Connor, Marino, Andrew, Stone-Whitehead, Caitlyn, Lamm, Amii, Abells, Ryan, Amaro, Pedro, Andoche, Adrien, Cantor, Robin, Diercks, David, Fretwell, Spencer, Gillespie, Abigail, Guerra, Mauro, Hall, Ad, Harris, Cameron N., Harris, Jackson T., Hinkle, Calvin, Hayen, Leendert M., Hervieux, Paul-Antoine, Kim, Geon-Bo, Leach, Kyle G., Lennarz, Annika, Lordi, Vincenzo, Machado, Jorge, McKeen, David, Mougeot, Xavier, Ponce, Francisco, Ruiz, Chris, Samanta, Amit, Santos, José Paulo, Smolsky, Joseph, Taylor, John, Templet, Joseph, Upadhyayula, Sriteja, Wagner, Louis, Warburton, William K., Waters, Benjamin, and Friedrich, Stephan

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment
Abstract

The Beryllium Electron capture in Superconducting Tunnel junctions (BeEST) experiment searches for evidence of heavy neutrino mass eigenstates in the nuclear electron capture decay of $^7$Be by precisely measuring the recoil energy of the $^7$Li daughter. In Phase-III, the BeEST experiment has been scaled from a single superconducting tunnel junction (STJ) sensor to a 36-pixel array to increase sensitivity and mitigate gamma-induced backgrounds. Phase-III also uses a new continuous data acquisition system that greatly increases the flexibility for signal processing and data cleaning. We have developed procedures for signal processing and spectral fitting that are sufficiently robust to be automated for large data sets. This article presents the optimized procedures before unblinding the majority of the Phase-III data set to search for physics beyond the standard model.

Published
2024

2. Direct Experimental Constraints on the Spatial Extent of a Neutrino Wavepacket

Author

Smolsky, Joseph, Leach, Kyle G, Abells, Ryan, Amaro, Pedro, Andoche, Adrien, Borbridge, Keith, Bray, Connor, Cantor, Robin, Diercks, David, Fretwell, Spencer, Friedrich, Stephan, Gillespie, Abigail, Guerra, Mauro, Hall, Ad, Harris, Cameron N, Harris, Jackson T, Hinkle, Calvin, Lamm, Amii, Hayen, Leendert M, Hervieux, Paul-Antoine, Kim, Geon-Bo, Kim, Inwook, Lennarz, Annika, Lordi, Vincenzo, Machado, Jorge, Marino, Andrew, McKeen, David, Mougeot, Xavier, Ponce, Francisco, Ruiz, Chris, Samanta, Amit, Santos, José Paulo, Stone-Whitehead, Caitlyn, Taylor, John, Templet, Joseph, Upadhyayula, Sriteja, Wagner, Louis, and Warburton, William K

Subjects
Nuclear Experiment, High Energy Physics - Experiment, Quantum Physics
Abstract

Despite their high relative abundance in our Universe, neutrinos are the least understood fundamental particles of nature. They also provide a unique system to study quantum coherence and the wavelike nature of particles in fundamental systems due to their extremely weak interaction probabilities. In fact, the quantum properties of neutrinos emitted in experimentally relevant sources are virtually unknown and the spatial extent of the neutrino wavepacket is only loosely constrained by reactor neutrino oscillation data with a spread of 13 orders of magnitude. Here, we present the first direct limits of this quantity through a new experimental concept to extract the energy width, $\sigma_{\textrm{N},E}$, of the recoil daughter nucleus emitted in the nuclear electron capture (EC) decay of $^7$Be. The final state in the EC decay process contains a recoiling $^7$Li nucleus and an electron neutrino ($\nu_e$) which are entangled at their creation. The $^7$Li energy spectrum is measured to high precision by directly embedding $^7$Be radioisotopes into a high resolution superconducting tunnel junction that is operated as a cryogenic sensor. The lower limit on the spatial uncertainty of the recoil daughter was found to be $\sigma_{\textrm{N}, x} \geq 6.2$\,pm, which implies the final-state system is localized at a scale more than a thousand times larger than the nucleus itself. From this measurement, the first direct lower limits on the spatial extent of the neutrino wavepacket were extracted using two different theoretical methods. These results have wide-reaching implications in several areas including the nature of spatial localization at sub-atomic scales, interpretation of neutrino physics data, and the potential reach of future large-scale experiments., Comment: 20 pages, 3 figures, v3 corrects and updates one of the wavepacket width calculations

Published
2024

3. Effects of Strong Capacitive Coupling Between Meta-Atoms in rf SQUID Metamaterials

Author

Cai, Jingnan, Cantor, Robin, Hizanidis, Johanne, Lazarides, Nikos, and Anlage, Steven M.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We consider, for the first time, the effects of strong capacitive and inductive coupling between radio frequency Superconducting Quantum Interference Devices (rf SQUIDs) in an overlapping metamaterial geometry when driven by rf flux at and near their self-resonant frequencies. The equations of motion for the gauge-invariant phases on the Josephson junctions in each SQUID are set up and solved. Our model accounts for the high-frequency displacement currents through capacitive overlap between the wiring of SQUID loops. We begin by modeling two overlapping SQUIDs and studying the response in both the linear and nonlinear high-frequency driving limits. By exploring a sequence of more and more complicated arrays, the formalism is eventually extended to the $N\times N \times 2$ overlapping metamaterial array, where we develop an understanding of the many ($8N^2-8N+3$) resulting resonant modes in terms of three classes of resonances. The capacitive coupling gives rise to qualitatively new self-resonant responses of rf SQUID metamaterials, and is demonstrated through analytical theory, numerical modeling, and experiment in the 10-30 GHz range on capacitively and inductively coupled rf SQUID metamaterials.

Published
2024
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5. Precise determination of $^{210}$Pb $\beta$ Decay Spectrum at 0 keV and its Implication to Theoretical Calculations

Author

Zhang, Shuo, Mougeot, Xavier, Liu, Hao-Ran, Han, Ke, Sun, Tao, Wu, Wen-Tao, Cantor, Robin, Xia, Jing-Kai, Liang, Jun-Cheng, Fan, Fu-You, Wu, Bing-Jun, Zhang, Le, Ge, Ming-Yu, Zhou, XiaoPeng, and Liu, Zhi

Subjects
Nuclear Experiment, Nuclear Theory
Abstract

The atomic exchange effect will lead to a significant increase in the probability density of $\beta$ decays below a few keV. This effect is very important for scientific experiments that performed by low-energy electron spectroscopy measurements. However, the atomic exchange effect involves multi-electron interactions, especially for a system with 82 electrons such as lead. Different parameters will lead to different trends in the energy spectrum predicted by the theory, so it is urgent to carry out experimental measurements to provide parameter limits for the theory. The probability increase brought about by the atomic exchange effect is most obvious near 0keV, and the $\beta$ energy spectrum is accurately measured near this energy point, so as to provide constraints for the physical model of atomic exchange. However, it is extremely difficult to measure the $\beta$ energy spectrum at 0keV due to the limitations of electronic noise and internal conversion effects. The excited decay path of $^{210}$Pb was taken as the observation object,by measuring the total energy spectrum of $\beta$ rays and cascaded gamma rays, the precise measurement of the $\beta$ energy spectrum near 0keV has been completed. The analysis of the $\beta$ energy spectrum of $^{210}$Pb gives the following conclusions. The experimental results first verified the theory that the exchange effect causes the probability increase at the low energy end near 0keV. At the same time, the experimental results are higher than the existing predictions of the atomic exchange effect. At least for Pb element, all the electron shells have played a role in improving the probability density of the low end of the $\beta$ energy spectrum. This discovery will promote the theoretical calculation of the $\beta$ energy spectrum of $^{214}$Pb, at the same time, it also indicates that the reactor neutrinos have a higher probability density at the omnipotent end.

Published
2023

6. Transition edge sensor based detector: from X-ray to $\gamma$-ray

Author

Zhang, Shuo, Xia, Jing-Kai, Sun, Tao, Wu, Wen-Tao, Wu, Bing-Jun, Wang, Yong-Liang, Cantor, Robin, Han, Ke, Zhou, Xiao-Peng, Liu, Hao-Ran, Fan, Fu-You, Guo, Si-Ming, Liang, Jun-Cheng, Li, De-Hong, Song, Yan-Ru, Ju, Xu-Dong, Fu, Qiang, and Liu, Zhi

Subjects
Physics - Instrumentation and Detectors, Astrophysics - Instrumentation and Methods for Astrophysics, 81V35
Abstract

The Transition Edge Sensor is extremely sensitive to the change of temperature, combined with the high-Z metal of a certain thickness, it can realize the high energy resolution measurement of particles such as X-rays. X-rays with energies below 10 keV have very weak penetrating ability, so only a few microns thick of gold or bismuth can obtain quantum efficiency higher than 70\%. Therefore, the entire structure of the TES X-ray detector in this energy range can be realized in the microfabrication process. However, for X-rays or gamma rays from 10 keV to 200 keV, sub-millimeter absorber layers are required, which cannot be realized by microfabrication process. This paper first briefly introduces a set of TES X-ray detectors and their auxiliary systems built by ShanghaiTech University, then focus on the introduction of the TES $\gamma$-ray detector, with absorber based on an sub-millimeter lead-tin alloy sphere. The detector has a quantum efficiency above 70\% near 100 keV, and an energy resolution of about 161.5eV@59.5keV., Comment: 13 pages, 12 figures

Published
2022

7. Low Noise Frequency Domain Multiplexing of TES Bolometers using Sub-kelvin SQUIDs

Author

Elleflot, Tucker, Suzuki, Aritoki, Arnold, Kam, Bebek, Chris, Cantor, Robin H., Crowley, Kevin T., Groh, John, de Haan, Tijmen, Hornsby, Amber, Joseph, John, Lee, Adrian T., Liu, Tiffany, Montgomery, Joshua, Russell, Megan, and Yu, Qingyang

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

Digital Frequency-Domain Multiplexing (DfMux) is a technique that uses MHz superconducting resonators and Superconducting Quantum Interference Device (SQUID) arrays to read out sets of Transition Edge Sensors. DfMux has been used by several Cosmic Microwave Background experiments, including most recently POLARBEAR-2 and SPT-3G with multiplexing factors as high as 68, and is the baseline readout technology for the planned satellite mission LiteBIRD. Here, we present recent work focused on improving DfMux readout noise, reducing parasitic impedance, and improving sensor operation. We have achieved a substantial reduction in stray impedance by integrating the sensors, resonators, and SQUID array onto a single carrier board operated at 250 mK. This also drastically simplifies the packaging of the cryogenic components and leads to better-controlled crosstalk. We demonstrate a low readout noise level of 8.6 pA/Hz$^{-1/2}$, which was made possible by operating the SQUID array at a reduced temperature and with a low dynamic impedance. This is a factor of two improvement compared to the achieved readout noise level in currently operating Cosmic Microwave Background experiments using DfMux and represents a critical step toward maturation of the technology for the next generation of instruments.

Published
2021
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9. Magnetic field dependence of the internal quality factor and noise performance of lumped-element kinetic inductance detectors

Author

Flanigan, Daniel, Johnson, Bradley R., Abitbol, Maximilian H., Bryan, Sean, Cantor, Robin, Day, Peter K., Jones, Glenn, Mauskopf, Philip, McCarrick, Heather, Miller, Amber, and Zmuidzinas, Jonas

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

We present a technique for increasing the internal quality factor of kinetic inductance detectors (KIDs) by nulling ambient magnetic fields with a properly applied magnetic field. The KIDs used in this study are made from thin-film aluminum, they are mounted inside a light-tight package made from bulk aluminum, and they are operated near $150 \, \mathrm{mK}$. Since the thin-film aluminum has a slightly elevated critical temperature ($T_\mathrm{c} = 1.4 \, \mathrm{K}$), it therefore transitions before the package ($T_\mathrm{c} = 1.2 \, \mathrm{K}$), which also serves as a magnetic shield. On cooldown, ambient magnetic fields as small as approximately $30 \, \mathrm{\mu T}$ can produce vortices in the thin-film aluminum as it transitions because the bulk aluminum package has not yet transitioned and therefore is not yet shielding. These vortices become trapped inside the aluminum package below $1.2 \, \mathrm{K}$ and ultimately produce low internal quality factors in the thin-film superconducting resonators. We show that by controlling the strength of the magnetic field present when the thin film transitions, we can control the internal quality factor of the resonators. We also compare the noise performance with and without vortices present, and find no evidence for excess noise beyond the increase in amplifier noise, which is expected with increasing loss., Comment: 5 pages, 4 figures

Published
2016
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11. Photon noise from chaotic and coherent millimeter-wave sources measured with horn-coupled, aluminum lumped-element kinetic inductance detectors

Author

Flanigan, Daniel, McCarrick, Heather, Jones, Glenn, Johnson, Bradley R., Abitbol, Maximilian H., Ade, Peter, Araujo, Derek, Bradford, Kristi, Cantor, Robin, Che, George, Day, Peter K., Doyle, Simon, Kjellstrand, Carl Bjorn, LeDuc, Henry G, Limon, Michele, Luu, Vy, Mauskopf, Philip, Miller, Amber, Mroczkowski, Tony, Tucker, Carole, and Zmuidzinas, Jonas

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

We report photon-noise limited performance of horn-coupled, aluminum lumped-element kinetic inductance detectors at millimeter wavelengths. The detectors are illuminated by a millimeter-wave source that uses an active multiplier chain to produce radiation between 140 and 160 GHz. We feed the multiplier with either amplified broadband noise or a continuous-wave tone from a microwave signal generator. We demonstrate that the detector response over a 40 dB range of source power is well-described by a simple model that considers the number of quasiparticles. The detector noise-equivalent power (NEP) is dominated by photon noise when the absorbed power is greater than approximately 1 pW, which corresponds to $\mathrm{NEP} \approx 2 \times 10^{-17} \, \mathrm{W} \, \mathrm{Hz}^{-1/2}$, referenced to absorbed power. At higher source power levels we observe the relationships between noise and power expected from the photon statistics of the source signal: $\mathrm{NEP} \propto P$ for broadband (chaotic) illumination and $\mathrm{NEP} \propto P^{1/2}$ for continuous-wave (coherent) illumination., Comment: Matches published version (which is open access) and includes supplemental material

Published
2015
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13. Optical NEP in Hot-Electron Nanobolometers

Author

Karasik, Boris S. and Cantor, Robin

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

For the first time, we have measured the optical noise equivalent power (NEP) in titanium (Ti) superconducting hot-electron nanobolometers (nano-HEBs). The bolometers were 2{\mu}mx1{\mu}mx20nm and 1{\mu}mx1{\mu}mx20nm planar antenna-coupled devices. The measurements were done at {\lambda} = 460 {\mu}m using a cryogenic black body radiation source delivering optical power from a fraction of a femtowatt to a few 100s of femtowatts. A record low NEP = 3x10^{-19} W/Hz^{1/2} at 50 mK has been achieved. This sensitivity meets the requirements for SAFARI instrument on the SPICA telescope. The ways for further improvement of the nano-HEB detector sensitivity are discussed., Comment: 7 pages, 8 figures, 2 tables; to appear in Proc. of 21st Int. Symp. on Spc. THz Technol., Oxford, UK, 23-25 March, 2010

Published
2010

20. Transition edge sensor-based detector: from X-ray to $$\gamma$$-ray

Author

Zhang, Shuo, primary, Xia, Jing-Kai, additional, Sun, Tao, additional, Wu, Wen-Tao, additional, Wu, Bing-Jun, additional, Wang, Yong-Liang, additional, Cantor, Robin, additional, Han, Ke, additional, Zhou, Xiao-Peng, additional, Liu, Hao-Ran, additional, Fan, Fu-You, additional, Guo, Si-Ming, additional, Liang, Jun-Cheng, additional, Li, De-Hong, additional, Song, Yan-Ru, additional, Ju, Xu-Dong, additional, Fu, Qiang, additional, and Liu, Zhi, additional

Published
2022
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21. Mini-Symposium on the Deepwater Horizon Oil Spill

Author

Tardiff, Robert, Lave, Lester, Garrick, John, Travis, Curtis, North, Warner, Zimmerman, Rae, Haimes, Yacov, Charnley, Gail, Cantor, Robin, Goldstein, Bernie, Chess, Caron, and Fischhoff, Baruch

Published
2010

30. Risk Attenuation and Amplification in the U.S. Opioid Crisis.

Author

Cantor, Robin, Bates, Heather, and MacKoul, Claire

Subjects
OPIOID epidemic, GOODNESS-of-fit tests, PUBLIC administration, OPIOIDS
Abstract

The evolution of risk identification and ultimately the public and private responses that have become known collectively as the "opioid crisis" is an important case study in risk management due to the reach and magnitude of its impacts. This article examines a number of "signals" related to opioid risks using the social amplification of risk framework (SARF) to investigate a limited set of public‐sector activities and policy responses. We evaluate whether the SARF presents an effective lens to examine the serious shortcomings of risk management of opioid use, which has a history of risk attenuation and, more recently, evidence of risk amplification. Our goal in this article is limited to addressing "goodness of fit" of the SARF as a descriptive tool. We consider whether the SARF effectively reveals important gaps in public risk management responses for the opioid example and other similarly situated societal risk problems. Applying SARF supports that its suggested relationship between risk signals and inappropriate attenuated public response does generate useful insights into regulatory efficacy for examples of public risk management. Similar such conclusions about inappropriate public responses stemming from the amplification factors are less supported because, in this case, the risk is, and continues to be, large. Overall, we find that the SARF's particular focus on the signaling function of risk information performs best as an organizational aid to study historical information rather than as a predictive tool for determining inappropriate risk management responses. [ABSTRACT FROM AUTHOR]

Published
2022
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31. Miniature thin-film superconducting quantum interference device susceptometer

Author

Cantor, Robin, Hall, Ad J., Blumenfeld, Phil, and Boyd, Stephen T.P.

Subjects
Dielectric films -- Electric properties, Thin films -- Electric properties, Superconductive devices -- Magnetic properties, Superconductive devices -- Electric properties, Magnetization -- Research, Business, Electronics, Electronics and electrical industries
Abstract

The development of a miniature thin-film susceptometer with integral magnetizing field coils and a persistence switch that is ideal for studying the temperature-dependent magnetization of very small samples of Fe-doped Pd which could be applied in thermometry and microcalorimetry is reported.

Published
2007

32. First-order planar superconducting quantum interference device gradiometers with long baseline

Author

Cantor, Robin, Hall, Ad J., Matlachov, Andrei N., and Volegov, Petr L.

Subjects
Superconducting quantum interference devices -- Design and construction, Dielectric films -- Electric properties, Thin films -- Electric properties, Magnetic fields -- Measurement, Business, Electronics, Electronics and electrical industries
Abstract

The development and performance of the improved gradiometer design integrated on a 1.2 cm * 4.8 cm chip and the compact package with electrical connections at the end the package assembly which could be applied in magnetocardiography is reported.

Published
2007

34. Surface micromachined transition edge sensor microcalorimeters on polyimide membranes

Author

Cantor, Robin and Hall, John

Subjects
Superconductive devices -- Design and construction, Infrared detectors -- Design and construction, Calorimeters -- Design and construction, Business, Electronics, Electronics and electrical industries
Abstract

A surface micromachining process is described for fabrication of transition edge sensor (TES) microcalorimeters on polyimide membranes. A design of experiment and statistical models to obtain a Tc around 100 mK, bilayer sheet resistance of around 15 to 20 m-ohms/sq, and low bilayer film stress of

Published
2005

35. Six-layer process for the fabrication of Nb/Al-AlO(sub x)/Nb Josephson junction devices

Author

Cantor, Robin and Hall, John

Subjects
Superconducting quantum interference devices -- Design and construction, Integrated circuit fabrication -- Methods, Josephson junction -- Design and construction, Integrated circuit fabrication, Business, Electronics, Electronics and electrical industries
Abstract

A six-layer process is described for the fabrication of Josephson junction devices and Superconducting QUantum Interference Devices (SQUIDs) on silicon wafers. The process is used to fabricate dc SQUIDs for various instrumentation applications, integrated SQUID magnetometers and planar gradiometers, and single tunnel junction detectors.

Published
2005

37. High temperature superconductor transimpedance amplifiers using serially connected bi-crystal junction SQUID arrays

Author

Li, Kin, Hubbell, Stephen P., Cantor, Robin, and Teepe, Mark

Subjects
Amplifiers (Electronics) -- Research, High temperature superconductors -- Research, Josephson junction -- Research, Superconducting quantum interference devices -- Research, Business, Electronics, Electronics and electrical industries
Abstract

Research was conducted to examine high temperature superconductor transimpedance amplifiers using serially connected bi-crystal junction superconducting quantum interference device (SQUID) arrays. The 30-element yttrium barium copper oxide bicrystal junction SQUID arrays amplifiers were designed, built and measured. A comparison was made between theoretical estimations and experimental results.

Published
1999

38. Baseline distance optimization for SQUID gradiometers

Author

Garachtchenko, Alexander, Matlashov, Andrei, Kraus, Robert H., Jr., and Cantor, Robin

Subjects
Electromagnetic noise -- Research, Signal to noise ratio -- Research, Superconducting quantum interference devices -- Research, Business, Electronics, Electronics and electrical industries
Abstract

Research was conducted to examine the baseline distance optimization for SQUID gradiometers through the use of computer simulation. The optimization criteria was the signal-to-noise ratio. It was observed that the optimal baseline in most cases was not equal to the depth of the primary source but has a more complex dependence on the gradiometer balance and the ambient magnetic noise. Optimal gradiometer baseline lengths for the different simulated conditions are described.

Published
1999

42. Development of the Nano-HEB Array for Low-Background Far-IR Applications

Author

Karasik, Boris S, Pereverzev, Sergey V, Olaya, David, Gershenson, Michael E, Cantor, Robin, Kawamura, Jonathan H, Day, Peter K, Bumble, Bruce, LeDuc, Henry G, Monacos, Steve P, Harding, Dennis G, Santavicca, Daniel, Carter, Faustin, and Prober, Daniel E

Subjects
Optics
Abstract

We present an overview of the recent progress made in the development of a far-IR array of ultrasensitive hot-electronnanobolometers (nano-HEB) made from thin titanium (Ti) films. We studied electrical noise, signal and noisebandwidth, single-photon detection, optical noise equivalent power (NEP), and a microwave SQUID (MSQUID) basedfrequency domain multiplexing (FDM) scheme. The obtained results demonstrate the very low electrical NEP down to1.5x10-(sup 2)? W/Hz(sup 1)/(sup 2) at 50 mK determined by the dominating phonon noise. The NEP increases with temperature as ~ T(sup 3)reaching ~ 10-(sup 1)? W/Hz(sup 1)/(sup 2) at the device critical temperature TC = 330-360 mK. Optical NEP = 8.6x10-(sup 1)? W/Hz(sup 1)/(sup 2) at 357mK and 1.4x10-(sup 1)? W/Hz(sup 1)/(sup 2) at 100 mK respectively, agree with thermal and electrical data. The optical couplingefficiency provided by a planar antenna was greater than 50%. Single 8-?m photons have been detected for the first timeusing a nano-HEB operating at 50-200 mK thus demonstrating a potential of these detectors for future photon-countingapplications in mid-IR and far-IR. In order to accommodate the relatively high detector speed (~ ?s at 300 mK, ~ 100 ?sat 100 mK), an MSQUID based FDM multiplexed readout with GHz carrier frequencies has been built. Both the readoutnoise ~ 2 pA/Hz(sup 1)/(sup 2) and the bandwidth > 150 kHz are suitable for nano-HEB detectors.

Published
2010

45. A low-noise, two-stage DC SQUID amplifier with high bandwidth and dynamic range

Author

Cantor, Robin, Lee, Luke P., Matlashov, Andrey, and Vinetskiy, Vladimir

Subjects
Superconducting quantum interference devices -- Research, Direct current amplifiers -- Research, Business, Electronics, Electronics and electrical industries
Abstract

A low-noise, two-stage direct current superconducting quantum interference device amplifier was developed for dynamic range and high bandwidth applications. Multiple modulation periods in the output stage was avoided by modifying the input stage. High bandwidth and large dynamic range operation of the amplifier was achieved without flux modulation or any impedance matching network.

Published
1997

46. Charge dissipative dielectric for cryogenic devices

Author

Cantor, Robin Harold and Hall, John Addison

Subjects
Electronics And Electrical Engineering
Abstract

A Superconducting Quantum Interference Device (SQUID) is disclosed comprising a pair of resistively shunted Josephson junctions connected in parallel within a superconducting loop and biased by an external direct current (dc) source. The SQUID comprises a semiconductor substrate and at least one superconducting layer. The metal layer(s) are separated by or covered with a semiconductor material layer having the properties of a conductor at room temperature and the properties of an insulator at operating temperatures (generally less than 100 Kelvins). The properties of the semiconductor material layer greatly reduces the risk of electrostatic discharge that can damage the device during normal handling of the device at room temperature, while still providing the insulating properties desired to allow normal functioning of the device at its operating temperature. A method of manufacturing the SQUID device is also disclosed.

Published
2007

47. Ultra-High Resolution Magnetic Microcalorimeter Gamma-Ray Detectors for Non-Destructive Assay of Uranium and Plutonium.

Author

Friedrich, Stephan, Kim, Geon-Bo, Lee, Dongwon, Hall, J. Ad, Cantor, Robin, Voyles, Andrew, Hummatov, Ruslan, and Boyd, Stephen P. T.

Subjects
MICROCALORIMETRY, NUCLEAR energy, RADIOACTIVE substances, SPECTROMETRY, PLUTONIUM
Abstract

Magnetic microcalorimeter (MMC) gamma-ray detectors are operated at temperatures below 0.05 K to provide an order of magnitude higher energy resolution than conventional high-purity germanium (HPGe) detectors. This comes at the cost of a small pixel size, which limits the practical energy range of MMCs to ~200 keV, and slow speed, which limits the statistical accuracy of a single-pixel spectrum. Still, MMCs may be able to improve the accuracy of nondestructive assay (NDA) of mixed-isotope U and Pu samples whose signature emissions in the 100 keV region are affected by line overlap and by a high Compton background. We are developing MMC gamma-ray detector arrays based on Au absorbers and paramagnetic Ag:Er sensors for NDA of U and Pu samples in nuclear safeguards. They have achieved an energy resolution below 40 eV FWHM at 60 keV and exhibit a linear response with a small and constant quadratic non-linearity. This paper characterizes MMC performance with the isotope 169Yb that is particularly interesting because it has four strong and very accurately known gamma emissions in the 100 keV region that is used for accurate NDA of U and Pu. We show that 169Yb can be used to calibrate the relative detection efficiency of MMCs with an average accuracy of 0.46% in the region from 85--135 keV. This can reduce the contribution of the efficiency correction to the uncertainty of U and Pu NDA to <0.1 %. The measurements also show that the weak putative 169Yb gamma rays at 63.01 and 129.94 keV most likely do not exist, and if they do, that their branching ratio is sufficiently low to not affect the accuracy of detector calibrations. As an example, we use the strong gold escape lines to measure an Au Ka2/Ka1 ratio of 0.590(4) whose precision exceeds the literature value by a factor of ~5. [ABSTRACT FROM AUTHOR]

Published
2021

48. Low-noise, single-layer YBa2Cu3O7-x DC SQUID magnetometers at 77 K

Author

Cantor, Robin, Lee, Luke P., Teepe, Mark, Vinetskiy, Vladimir, and Longo, Joseph

Subjects
Superconducting quantum interference devices -- Design and construction, Magnetometer -- Design and construction, Business, Electronics, Electronics and electrical industries
Abstract

A low-noise direct superconducting quantum interference device (SQUID) magnetometer is developed using a single layer of YBa2Cu3O7-x on a bicrystal substrate. The magnetometer consists of a single-turn pickup loop directly coupled to a low-inductance SQUID. The magnetometer's white flux noise is measured with the use of conventional flux-locked loop electronics with bias current reversal. A white magnetic field is observed after the field-to-flux conversion efficiency is measured.

Published
1995

49. Effect of parasitic capacitance and inductance on the dynamics and noise of dc superconducting quantum interference devices

Author

Ryhanen, Tapani, Seppa, Heikki, and Cantor, Robin

Subjects
Superconducting quantum interference devices -- Research, Physics
Abstract

The influence of parasitic capacitance and inductance on the dynamics and noise of dc superconducting quantum interference devices was investigated. The results showed that the parasitic capacitance was present in all the Josephson junctions. The dynamics of the devices were heavily influenced by parasitic capacitance and small parasitic capacitance. The optimal points of operation were found at voltages above the low-frequency resonance.

Published
1992

50. Chapter 8: Applying construction lessons to decommissioning estimates

Author

Cantor, Robin

Subjects
Nuclear power plants -- Design and construction -- Economic aspects -- Statistics, Nuclear facilities -- Decommissioning, Government regulation, Business, Economics, Petroleum, energy and mining industries
Abstract

One of the standard practices in estimating costs for new procedures is to apply past experience. In this chapter, Robin Cantor uses prudency hearings and other data from power plant [...]

Published
1991

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