Search Results - "Kurinsky, N"

Correlated charge noise and relaxation errors in superconducting qubits by Wilen, C. D., Abdullah, S., Kurinsky, N. A., Stanford, C., Cardani, L., D’Imperio, G., Tomei, C., Faoro, L., Ioffe, L. B., Liu, C. H., Opremcak, A., Christensen, B. G., DuBois, J. L., McDermott, R.

“…The central challenge in building a quantum computer is error correction. Unlike classical bits, which are susceptible to only one type of error, quantum bits…”
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Epoxy IR Filters for Superconducting Resonators by Spahn, G., Kurinsky, N., Lewis, S., Bowring, D., Hollister, M.

“…Infrared radiation leakage through dielectrics in coaxial cabling can create unwanted quasiparticles in superconducting resonators if allowed to reach devices…”
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Observation of Long-Lived UV-Induced Fluorescence from Environmental Materials Using the HVeV Detector as Developed for SuperCDMS by Ponce, F., Brink, P. L., Cabrera, B., Cherry, M., Kurinsky, N. A., Page, W. A., Partridge, R., Stanford, C., Watkins, S. L., Yellin, S., Young, B. A.

“…We describe recent experiments using a SuperCDMS high-voltage single-charge sensitive (HVeV) detector illuminated with an ultraviolet LED (275 nm) and a…”
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Modeling of Impact Ionization and Charge Trapping in SuperCDMS HVeV Detectors by Ponce, F., Page, W., Brink, P. L., Cabrera, B., Cherry, M., Fink, C., Kurinsky, N., Partridge, R., Pyle, M., Sadoulet, B., Serfass, B., Stanford, C., Watkins, S., Yellin, S., Young, B. A.

“…A model for charge trapping and impact ionization and an experiment to measure these parameters are presented for the SuperCDMS HVeV detector. A procedure to…”
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Irradiation Tests of Superconducting Detectors and Comparison with Simulations by Minami, Y., Akiba, Y., Beckman, S., Hazumi, M., Kuo, C., Kurinsky, N. A., Kutsuma, H., Lee, A. T., Mima, S., Raum, C. R., Sasse, T., Stever, S. L., Suzuki, A., Westbrook, B.

“…For the future satellite mission at the second sun–earth Lagrangian point (L2), we need to mitigate phonon propagation created by cosmic rays to…”
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Characterizing TES power noise for future single optical-phonon and infrared-photon detectors by Fink, C. W., Watkins, S. L., Aramaki, T., Brink, P. L., Ganjam, S., Hines, B. A., Huber, M. E., Kurinsky, N. A., Mahapatra, R., Mirabolfathi, N., Page, W. A., Partridge, R., Platt, M., Pyle, M., Sadoulet, B., Serfass, B., Zuber, S.

“…In this letter, we present the performance of a 100 μm × 400 μm × 40 nm W Transition-Edge Sensor with a critical temperature of 40 mK. This device has a noise…”
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Photoelectric absorption cross section of silicon near the bandgap from room temperature to sub-Kelvin temperature by Stanford, C., Wilson, M. J., Cabrera, B., Diamond, M., Kurinsky, N. A., Moffatt, R. A., Ponce, F., von Krosigk, B., Young, B. A.

“…The use of cryogenic silicon as a detector medium for dark matter searches is gaining popularity. Many of these searches are highly dependent on the value of…”
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High-field spatial imaging of charge transport in silicon at low temperature by Stanford, C., Moffatt, R. A., Kurinsky, N. A., Brink, P. L., Cabrera, B., Cherry, M., Insulla, F., Kelsey, M., Ponce, F., Sundqvist, K., Yellin, S., Young, B. A.

“…We present direct imaging measurements of charge transport across a 1 cm × 1 cm × 4 mm-thick crystal of high purity silicon (∼15 kΩ-cm) at temperatures of 5 K…”
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Two-Stage Cryogenic HEMT Based Amplifier For Low Temperature Detectors by Anczarski, J, Dubovskov, M, Fink, C. W, Kevane, S, Kurinsky, N. A, Mazumdar, A, Meijer, S. J, Phipps, A, Ronning, F, Rydstrom, I, Simchony, A, Smith, Z, Thomas, S. M, Watkins, S. L, Young, B. A

“…J. Low Temp. Phys. 214, 256 (2024) To search for dark matter candidates with masses below $\mathcal{O}$(MeV), the SPLENDOR (Search for Particles of Light dark…”
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Improved Modelling of Detector Response Effects in Phonon-based Crystal Detectors used for Dark Matter Searches by Wilson, M. J, Zaytsev, A, von Krosigk, B, Alkhatib, I, Buchanan, M, Chen, R, Diamond, M. D, Figueroa-Feliciano, E, Harms, S. A. S, Hong, Z, Kennard, K. T, Kurinsky, N. A, Mahapatra, R, Mirabolfathi, N, Novati, V, Platt, M, Ren, R, Sattari, A, Schmidt, B, Wang, Y, Zatschler, S, Zhang, E, Zuniga, A

“…Phys. Rev. D 109, 112018 (2024) Various dark matter search experiments employ phonon-based crystal detectors operated at cryogenic temperatures. Some of these…”
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First Dark Matter Constraints from a SuperCDMS Single-Charge Sensitive Detector by Agnese, R, Aralis, T, Aramaki, T, Arnquist, I J, Azadbakht, E, Baker, W, Banik, S, Barker, D, Bauer, D A, Binder, T, Bowles, M A, Brink, P L, Bunker, R, Cabrera, B, Calkins, R, Cartaro, C, Cerdeño, D G, Chang, Y-Y, Cooley, J, Cornell, B, Cushman, P, Di Stefano, P C F, Doughty, T, Fascione, E, Figueroa-Feliciano, E, Fink, C, Fritts, M, Gerbier, G, Germond, R, Ghaith, M, Golwala, S R, Harris, H R, Hong, Z, Hoppe, E W, Hsu, L, Huber, M E, Iyer, V, Jardin, D, Jena, C, Kelsey, M H, Kennedy, A, Kubik, A, Kurinsky, N A, Lawrence, R E, Leyva, J V, Loer, B, Lopez Asamar, E, Lukens, P, MacDonell, D, Mahapatra, R, Mandic, V, Mast, N, Miller, E H, Mirabolfathi, N, Mohanty, B, Morales Mendoza, J D, Nelson, J, Orrell, J L, Oser, S M, Page, W A, Partridge, R, Pepin, M, Phipps, A, Ponce, F, Poudel, S, Pyle, M, Qiu, H, Rau, W, Reisetter, A, Reynolds, T, Roberts, A, Robinson, A E, Rogers, H E, Romani, R K, Saab, T, Sadoulet, B, Sander, J, Scarff, A, Schnee, R W, Scorza, S, Senapati, K, Serfass, B, So, J, Speller, D, Stanford, C, Stein, M, Street, J, Tanaka, H A, Toback, D, Underwood, R, Villano, A N, von Krosigk, B, Watkins, S L, Wilson, J S, Wilson, M J, Winchell, J, Wright, D H, Yellin, S, Young, B A, Zhang, X

“…We present the first limits on inelastic electron-scattering dark matter and dark photon absorption using a prototype SuperCDMS detector having a charge…”
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Light Dark Matter Search with a High-Resolution Athermal Phonon Detector Operated above Ground by Alkhatib, I., Amaral, D. W. P., Aralis, T., Aramaki, T., Arnquist, I. J., Ataee Langroudy, I., Azadbakht, E., Banik, S., Barker, D., Bathurst, C., Bauer, D. A., Bezerra, L. V. S., Bhattacharyya, R., Binder, T., Bowles, M. A., Brink, P. L., Bunker, R., Cabrera, B., Calkins, R., Cameron, R. A., Cartaro, C., Cerdeño, D. G., Chang, Y.-Y., Chaudhuri, M., Chen, R., Chott, N., Cooley, J., Coombes, H., Corbett, J., Cushman, P., De Brienne, F., di Vacri, M. L., Diamond, M. D., Fascione, E., Figueroa-Feliciano, E., Fink, C. W., Fouts, K., Fritts, M., Gerbier, G., Germond, R., Ghaith, M., Golwala, S. R., Harris, H. R., Herbert, N., Hines, B. A., Hollister, M. I., Hong, Z., Hoppe, E. W., Hsu, L., Huber, M. E., Iyer, V., Jardin, D., Jastram, A., Kashyap, V. K. S., Kelsey, M. H., Kubik, A., Kurinsky, N. A., Lawrence, R. E., Li, A., Loer, B., Lopez Asamar, E., Lukens, P., MacDonell, D., MacFarlane, D. B., Mahapatra, R., Mandic, V., Mast, N., Mayer, A. J., Meyer zu Theenhausen, H., Michaud, É. M., Michielin, E., Mirabolfathi, N., Mohanty, B., Morales Mendoza, J. D., Nagorny, S., Nelson, J., Neog, H., Novati, V., Orrell, J. L., Oser, S. M., Page, W. A., Pakarha, P., Partridge, R., Podviianiuk, R., Ponce, F., Poudel, S., Pyle, M., Rau, W., Reid, E., Ren, R., Reynolds, T., Roberts, A., Robinson, A. E., Saab, T., Sadoulet, B., Sander, J., Sattari, A., Schnee, R. W., Scorza, S., Serfass, B.

“…We present limits on spin-independent dark matter-nucleon interactions using a 10.6 g Si athermal phonon detector with a baseline energy resolution of σE =…”
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Thermal detection of single e-h pairs in a biased silicon crystal detector by Romani, R. K., Brink, P. L., Cabrera, B., Cherry, M., Howarth, T., Kurinsky, N., Moffatt, R. A., Partridge, R., Ponce, F., Pyle, M., Tomada, A., Yellin, S., Yen, J. J., Young, B. A.

“…We demonstrate that individual electron-hole pairs are resolved in a 1 cm2 by 4 mm thick silicon crystal (0.93 g) operated at ∼35 mK. One side of the detector…”
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Photoelectric absorption cross section of silicon near the band gap from room temperature to sub-Kelvin temperature by Stanford, C, Wilson, M. J, Cabrera, B, Diamond, M, Kurinsky, N. A, Moffatt, R. A, Ponce, F, von Krosigk, B, Young, B. A

“…The use of cryogenic silicon as a detector medium for dark matter searches is gaining popularity. Many of these searches are highly dependent on the value of…”
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Results from the Super Cryogenic Dark Matter Search Experiment at Soudan by Agnese, R, Aramaki, T, Arnquist, I J, Baker, W, Balakishiyeva, D, Banik, S, Barker, D, Basu Thakur, R, Bauer, D A, Binder, T, Bowles, M A, Brink, P L, Bunker, R, Cabrera, B, Caldwell, D O, Calkins, R, Cartaro, C, Cerdeño, D G, Chang, Y, Chen, Y, Cooley, J, Cornell, B, Cushman, P, Daal, M, Di Stefano, P C F, Doughty, T, Fascione, E, Figueroa-Feliciano, E, Fritts, M, Gerbier, G, Germond, R, Ghaith, M, Godfrey, G L, Golwala, S R, Hall, J, Harris, H R, Hong, Z, Hoppe, E W, Hsu, L, Huber, M E, Iyer, V, Jardin, D, Jastram, A, Jena, C, Kelsey, M H, Kennedy, A, Kubik, A, Kurinsky, N A, Loer, B, Lopez Asamar, E, Lukens, P, MacDonell, D, Mahapatra, R, Mandic, V, Mast, N, Miller, E H, Mirabolfathi, N, Mohanty, B, Morales Mendoza, J D, Nelson, J, Orrell, J L, Oser, S M, Page, K, Page, W A, Partridge, R, Penalver Martinez, M, Pepin, M, Phipps, A, Poudel, S, Pyle, M, Qiu, H, Rau, W, Redl, P, Reisetter, A, Reynolds, T, Roberts, A, Robinson, A E, Rogers, H E, Saab, T, Sadoulet, B, Sander, J, Schneck, K, Schnee, R W, Scorza, S, Senapati, K, Serfass, B, Speller, D, Stein, M, Street, J, Tanaka, H A, Toback, D, Underwood, R, Villano, A N, von Krosigk, B, Welliver, B, Wilson, J S, Wilson, M J, Wright, D H, Yellin, S, Yen, J J

“…We report the result of a blinded search for weakly interacting massive particles (WIMPs) using the majority of the SuperCDMS Soudan data set. With an exposure…”
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G4CMP: Condensed Matter Physics Simulation Using the Geant4 Toolkit by Kelsey, M. H, Agnese, R, Alam, Y. F, Langroudy, I. Ataee, Azadbakht, E, Brandt, D, Bunker, R, Cabrera, B, Chang, Y. -Y, Coombes, H, Cormier, R. M, Diamond, M. D, Edwards, E. R, Figueroa-Feliciano, E, Gao, J, Harrington, P. M, Hong, Z, Hui, M, Kurinsky, N. A, Lawrence, R. E, Loer, B, Masten, M. G, Michaud, E, Michielin, E, Miller, J, Novati, V, Oblath, N. S, Orrell, J. L, Perry, W. L, Redl, P, Reynolds, T, Saab, T, Sadoulet, B, Serniak, K, Singh, J, Speaks, Z, Stanford, C, Stevens, J. R, Strube, J, Toback, D, Ullom, J. N, VanDevender, B. A, Vissers, M. R, Wilson, M. J, Wilson, J. S, Zatschler, B, Zatschler, S

“…Nuclear Instruments and Methods A 1055 (2023) 168473 G4CMP simulates phonon and charge transport in cryogenic semiconductor crystals using the Geant4 toolkit…”
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Correlated Charge Noise and Relaxation Errors in Superconducting Qubits by Wilen, C. D, Abdullah, S, Kurinsky, N. A, Stanford, C, Cardani, L, D'Imperio, G, Tomei, C, Faoro, L, Ioffe, L. B, Liu, C. H, Opremcak, A, Christensen, B. G, DuBois, J. L, McDermott, R

“…Nature 594, 369--373 (2021) The central challenge in building a quantum computer is error correction. Unlike classical bits, which are susceptible to only one…”
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High-field Spatial Imaging of Charge Transport in Silicon at Low Temperature by Stanford, C, Moffatt, R. A, Kurinsky, N. A, Brink, P. L, Cabrera, B, Cherry, M, Insulla, F, Kelsey, M, Ponce, F, Sundqvist, K, Yellin, S, Young, B. A

“…We present direct imaging measurements of charge transport across a 1 cm x 1 cm x 4 mm-thick crystal of high purity silicon ($\sim$15 k$\Omega$-cm) at…”
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Characterizing TES Power Noise for Future Single Optical-Phonon and Infrared-Photon Detectors by Fink, C. W, Watkins, S. L, Aramaki, T, Brink, P. L, Ganjam, S, Hines, B. A, Huber, M. E, Kurinsky, N. A, Mahapatra, R, Mirabolfathi, N, Page, W. A, Partridge, R, Platt, M, Pyle, M, Sadoulet, B, Serfass, B, Zuber, S

“…AIP Advances 10, 085221 (2020) In this letter, we present the performance of a $100~\mu\mathrm{m}\times 400~\mu\mathrm{m} \times 40~\mathrm{nm}$ tungsten (W)…”
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Design and Characterization of a Phonon-Mediated Cryogenic Particle Detector with an eV-Scale Threshold and 100 keV-Scale Dynamic Range by Ren, R, Bathurst, C, Chang, Y. Y, Chen, R, Fink, C. W, Hong, Z, Kurinsky, N. A, Mast, N, Mishra, N, Novati, V, Spahn, G, Theenhausen, H. Meyer zu, Watkins, S. L, Williams, Z, Wilson, M. J, Zaytsev, A, Bauer, D, Bunker, R, Figueroa-Feliciano, E, Hollister, M, Hsu, L, Lukens, P, Mahapatra, R, Mirabolfathi, N, Nebolsky, B, Platt, M, Ponce, F, Pyle, M, Reynolds, T, Saab, T

“…Phys. Rev. D 104, 032010 (2021) We present the design and characterization of a cryogenic phonon-sensitive 1-gram Si detector exploiting the…”
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