Your search keyword '"Szypryt, Paul"' showing total 48 results

1. Computed models of natural radiation backgrounds in qubits and superconducting detectors

Author

Fowler, Joseph, Florang, Ian Fogarty, Nakamura, Nathan, Swetz, Daniel, Szypryt, Paul, and Ullom, Joel

Subjects

Quantum Physics, Physics - Instrumentation and Detectors

Abstract

Naturally occurring radiation backgrounds cause correlated decoherence events in superconducting qubits. These backgrounds include both gamma rays produced by terrestrial radioisotopes and cosmic rays. We use the particle-transport code Geant4 and the PARMA summary of the cosmic-ray spectrum to model both sources of natural radiation and to study their effects in the typical substrates used in superconducting electronics. We focus especially on three rates that summarize radiation's effect on substrates. We give analytic expressions for these rates, and how they depend upon parameters including laboratory elevation, substrate material, ceiling thickness, and wafer area and thickness. The modeled rates and the distribution of event energies are consistent with our earlier measurement of radiation backgrounds using a silicon thermal kinetic-inductance detector., Comment: Submitted to IEEE Transactions in Applied Superconductivity

Published

2024

2. Kinetic inductance current sensor for visible to near-infrared wavelength transition-edge sensor readout

Author

Szypryt, Paul, Bennett, Douglas A., Florang, Ian Fogarty, Fowler, Joseph W., Giachero, Andrea, Hummatov, Ruslan, Lita, Adriana E., Mates, John A. B., Nam, Sae Woo, O'Neil, Galen C., Swetz, Daniel S., Ullom, Joel N., Vissers, Michael R., Wheeler, Jordan, and Gao, Jiansong

Subjects

Physics - Instrumentation and Detectors

Abstract

Single-photon detectors based on the superconducting transition-edge sensor are used in a number of visible to near-infrared applications, particularly for photon-number-resolving measurements in quantum information science. To be practical for large-scale spectroscopic imaging or photonic quantum computing applications, the size of visible to near-infrared transition-edge sensor arrays and their associated readouts must be increased from a few pixels to many thousands. In this manuscript, we introduce the kinetic inductance current sensor, a scalable readout technology that exploits the nonlinear kinetic inductance in a superconducting resonator to make sensitive current measurements. Kinetic inductance current sensors can replace superconducting quantum interference devices for many applications because of their ability to measure fast, high slew-rate signals, their compatibility with standard microwave frequency-division multiplexing techniques, and their relatively simple fabrication. Here, we demonstrate the readout of a visible to near-infrared transition-edge sensor using a kinetic inductance current sensor with 3.7 MHz of bandwidth. We measure a readout noise of 1.4 pA/$\sqrt{\text{Hz}}$, considerably below the detector noise at frequencies of interest, and an energy resolution of $(0.137 \pm 0.001)$ eV at 0.8 eV, comparable to resolutions observed with non-multiplexed superconducting quantum interference device readouts., Comment: 14 pages, 8 figures

Published

2024

3. Spectroscopic measurements and models of energy deposition in the substrate of quantum circuits by natural ionizing radiation

Author

Fowler, Joseph W., Szypryt, Paul, Bunker, Raymond, Edwards, Ellen R., Florang, Ian Fogarty, Gao, Jiansong, Giachero, Andrea, Hoogerheide, Shannon F., Loer, Ben, Mumm, H. Pieter, Nakamura, Nathan, O'Neil, Galen C., Orrell, John L., Scott, Elizabeth M., Stevens, Jason, Swetz, Daniel S., VanDevender, Brent A., Vissers, Michael, and Ullom, Joel N.

Subjects

Quantum Physics, Physics - Instrumentation and Detectors

Abstract

Naturally occurring background radiation is a source of correlated decoherence events in superconducting qubits that will challenge error-correction schemes. To characterize the radiation environment in an unshielded laboratory, we performed broadband, spectroscopic measurements of background events in silicon substrates located inside a millikelvin refrigerator, an environment representative of superconducting qubit systems. We measured the background spectra in silicon substrates of two thicknesses, 0.5 mm and 1.5 mm, and obtained the average event rate and the integrated power deposition. In a 25 mm^2 area and the thinner substrate, these values are 0.023 events per second and 4.9 keV/s, counting events that deposit at least 40 keV. We find the background spectrum to be nearly featureless. Its intensity decreases by a factor of 40,000 between 100 keV and 3 MeV for silicon substrates 0.5 mm thick. We find the cryogenic measurements to be in good agreement with predictions based on measurements of the terrestrial gamma-ray flux, published models of cosmic-ray fluxes, a crude model of the cryostat, and radiation-transport simulations. No free parameters are required to predict the background spectra in the silicon substrates. The good agreement between measurements and predictions allow assessment of the relative contributions of terrestrial and cosmic background sources and their dependence on substrate thickness. Our spectroscopic measurements are performed with superconducting microresonators that transduce deposited energy to a readily detectable electrical signal. We find that gamma-ray emissions from radioisotopes are responsible for the majority of events depositing E<1.5 MeV, while nucleons among the cosmic-ray secondary particles cause most events that deposit more energy. These results suggest several paths to reducing the impact of background radiation on quantum circuits., Comment: This version is the revision accepted for publication in PRX Quantum

Published

2024

4. Detecting Light Dark Matter with Kinetic Inductance Detectors

Author

Gao, Jiansong, Hochberg, Yonit, Lehmann, Benjamin V., Nam, Sae Woo, Szypryt, Paul, Vissers, Michael R., and Xu, Tao

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, Physics - Instrumentation and Detectors

Abstract

Superconducting detectors are a promising technology for probing dark matter at extremely low masses, where dark matter interactions are currently unconstrained. Realizing the potential of such detectors requires new readout technologies to achieve the lowest possible thresholds for deposited energy. Here we perform a prototype search for dark matter--electron interactions with kinetic inductance detectors (KIDs), a class of superconducting detector originally designed for infrared astronomy applications. We demonstrate that existing KIDs can achieve effective thresholds as low as 0.2 eV, and we use existing data to set new dark matter constraints. The relative maturity of the technology underlying KIDs means that this platform can be scaled significantly with existing tools, enabling powerful new searches in the coming years., Comment: 6+6 pages, 4+3 figures

Published

2024

5. Quantum Information Science and Technology for Nuclear Physics. Input into U.S. Long-Range Planning, 2023

Author

Beck, Douglas, Carlson, Joseph, Davoudi, Zohreh, Formaggio, Joseph, Quaglioni, Sofia, Savage, Martin, Barata, Joao, Bhattacharya, Tanmoy, Bishof, Michael, Cloet, Ian, Delgado, Andrea, DeMarco, Michael, Fink, Caleb, Florio, Adrien, Francois, Marianne, Grabowska, Dorota, Hoogerheide, Shannon, Huang, Mengyao, Ikeda, Kazuki, Illa, Marc, Joo, Kyungseon, Kharzeev, Dmitri, Kowalski, Karol, Lai, Wai Kin, Leach, Kyle, Loer, Ben, Low, Ian, Martin, Joshua, Moore, David, Mehen, Thomas, Mueller, Niklas, Mulligan, James, Mumm, Pieter, Pederiva, Francesco, Pisarski, Rob, Ploskon, Mateusz, Reddy, Sanjay, Rupak, Gautam, Singh, Hersh, Singh, Maninder, Stetcu, Ionel, Stryker, Jesse, Szypryt, Paul, Valgushev, Semeon, VanDevender, Brent, Watkins, Samuel, Wilson, Christopher, Yao, Xiaojun, Afanasev, Andrei, Balantekin, Akif Baha, Baroni, Alessandro, Bunker, Raymond, Chakraborty, Bipasha, Chernyshev, Ivan, Cirigliano, Vincenzo, Clark, Benjamin, Dhiman, Shashi Kumar, Du, Weijie, Dutta, Dipangkar, Edwards, Robert, Flores, Abraham, Galindo-Uribarri, Alfredo, Ruiz, Ronald Fernando Garcia, Gueorguiev, Vesselin, Guo, Fanqing, Hansen, Erin, Hernandez, Hector, Hattori, Koichi, Hauke, Philipp, Hjorth-Jensen, Morten, Jankowski, Keith, Johnson, Calvin, Lacroix, Denis, Lee, Dean, Lin, Huey-Wen, Liu, Xiaohui, Llanes-Estrada, Felipe J., Looney, John, Lukin, Misha, Mercenne, Alexis, Miller, Jeff, Mottola, Emil, Mueller, Berndt, Nachman, Benjamin, Negele, John, Orrell, John, Patwardhan, Amol, Phillips, Daniel, Poole, Stephen, Qualters, Irene, Rumore, Mike, Schaefer, Thomas, Scott, Jeremy, Singh, Rajeev, Vary, James, Galvez-Viruet, Juan-Jose, Wendt, Kyle, Xing, Hongxi, Yang, Liang, Young, Glenn, and Zhao, Fanyi

Subjects

Nuclear Experiment, Nuclear Theory, Quantum Physics

Abstract

In preparation for the 2023 NSAC Long Range Plan (LRP), members of the Nuclear Science community gathered to discuss the current state of, and plans for further leveraging opportunities in, QIST in NP research at the Quantum Information Science for U.S. Nuclear Physics Long Range Planning workshop, held in Santa Fe, New Mexico on January 31 - February 1, 2023. The workshop included 45 in-person participants and 53 remote attendees. The outcome of the workshop identified strategic plans and requirements for the next 5-10 years to advance quantum sensing and quantum simulations within NP, and to develop a diverse quantum-ready workforce. The plans include resolutions endorsed by the participants to address the compelling scientific opportunities at the intersections of NP and QIST. These endorsements are aligned with similar affirmations by the LRP Computational Nuclear Physics and AI/ML Workshop, the Nuclear Structure, Reactions, and Astrophysics LRP Town Hall, and the Fundamental Symmetries, Neutrons, and Neutrinos LRP Town Hall communities., Comment: A white paper for the 2023 nuclear physics long-range planning activity, emerging from the workshop "Quantum Information Science for U.S. Nuclear Physics Long Range Planning'', held in Santa Fe, New Mexico on January 31 - February 1, 2023. 26 pages with 7 figures

Published

2023

6. A tabletop x-ray tomography instrument for nanometer-scale imaging: demonstration of the 1,000-element transition-edge sensor subarray

Author

Szypryt, Paul, Nakamura, Nathan, Becker, Daniel T., Bennett, Douglas A., Dagel, Amber L., Doriese, W. Bertrand, Fowler, Joseph W., Gard, Johnathon D., Harris, J. Zachariah, Hilton, Gene C., Imrek, Jozsef, Jimenez, Edward S., Larson, Kurt W., Levine, Zachary H., Mates, John A. B., McArthur, D., Miaja-Avila, Luis, Morgan, Kelsey M., O'Neil, Galen C., Ortiz, Nathan J., Pappas, Christine G., Schmidt, Daniel R., Thompson, Kyle R., Ullom, Joel N., Vale, Leila, Vissers, Michael R., Walker, Christopher, Weber, Joel C., Wessels, Abigail L., Wheeler, Jason W., and Swetz, Daniel S.

Subjects

Physics - Instrumentation and Detectors

Abstract

We report on the 1,000-element transition-edge sensor (TES) x-ray spectrometer implementation of the TOMographic Circuit Analysis Tool (TOMCAT). TOMCAT combines a high spatial resolution scanning electron microscope (SEM) with a highly efficient and pixelated TES spectrometer to reconstruct three-dimensional maps of nanoscale integrated circuits (ICs). A 240-pixel prototype spectrometer was recently used to reconstruct ICs at the 130 nm technology node, but to increase imaging speed to more practical levels, the detector efficiency needs to be improved. For this reason, we are building a spectrometer that will eventually contain 3,000 TES microcalorimeters read out with microwave superconducting quantum interference device (SQUID) multiplexing, and we currently have commissioned a 1,000 TES subarray. This still represents a significant improvement from the 240-pixel system and allows us to begin characterizing the full spectrometer performance. Of the 992 maximimum available readout channels, we have yielded 818 devices, representing the largest number of TES x-ray microcalorimeters simultaneously read out to date. These microcalorimeters have been optimized for pulse speed rather than purely energy resolution, and we measure a FWHM energy resolution of 14 eV at the 8.0 keV Cu K$\alpha$ line., Comment: 5 pages, 4 figures, submitted to IEEE Transactions on Applied Superconductivity

Published

2022

7. Nanoscale Three-Dimensional Imaging of Integrated Circuits using a Scanning Electron Microscope and Transition-Edge Sensor Spectrometer

Author

Nakamura, Nathan, Szypryt, Paul, Dagel, Amber L., Alpert, Bradley K., Bennett, Douglas A., Doriese, W. Bertrand, Durkin, Malcolm, Fowler, Joseph W., Fox, Dylan T., Gard, Johnathon D., Goodner, Ryan N., Harris, J. Zachariah, Hilton, Gene C., Jimenez, Edward S., Kernen, Burke L., Larson, Kurt W., Levine, Zachary H., McArthur, Daniel, Morgan, Kelsey M., O'Neil, Galen C., Ortiz, Nathan J., Pappas, Christine G., Reintsema, Carl D., Schmidt, Daniel R., Schultz, Peter A., Thompson, Kyle R., Ullom, Joel N., Vale, Leila, Vaughan, Courtenay T., Walker, Christopher, Weber, Joel C., Wheeler, Jason W., and Swetz, Daniel S.

Subjects

Physics - Instrumentation and Detectors

Abstract

X-ray nanotomography is a powerful tool for the characterization of nanoscale materials and structures, but is difficult to implement due to competing requirements on X-ray flux and spot size. Due to this constraint, state-of-the-art nanotomography is predominantly performed at large synchrotron facilities. We present a laboratory-scale nanotomography instrument that achieves nanoscale spatial resolution while changing the limitations of conventional tomography tools. The instrument combines the electron beam of a scanning electron microscope (SEM) with the precise, broadband X-ray detection of a superconducting transition-edge sensor (TES) microcalorimeter. The electron beam generates a highly focused X-ray spot in a metal target held micrometers away from the sample of interest, while the TES spectrometer isolates target photons with high signal-to-noise. This combination of a focused X-ray spot, energy-resolved X-ray detection, and unique system geometry enable nanoscale, element-specific X-ray imaging in a compact footprint. The proof-of-concept for this approach to X-ray nanotomography is demonstrated by imaging 160 nm features in three dimensions in 6 layers of a Cu-SiO2 integrated circuit, and a path towards finer resolution and enhanced imaging capabilities is discussed.

Published

2022

8. Design of a 3000-pixel transition-edge sensor x-ray spectrometer for microcircuit tomography

Author

Szypryt, Paul, Bennett, Douglas A., Boone, William J., Dagel, Amber L., Dalton, Gabriella, Doriese, W. Bertrand, Fowler, Joseph W., Garboczi, Edward J., Gard, Johnathon D., Hilton, Gene C., Imrek, Jozsef, Jimenez, Edward S., Kotsubo, Vincent Y., Larson, Kurt, Levine, Zachary H., Mates, John A. B., McArthur, Daniel, Morgan, Kelsey M., Nakamura, Nathan, O'Neil, Galen C., Ortiz, Nathan J., Pappas, Christine G., Reintsema, Carl D., Schmidt, Daniel R., Swetz, Daniel S., Thompson, Kyle R., Ullom, Joel N., Walker, Christopher, Weber, Joel C., Wessels, Abigail L., and Wheeler, Jason W.

Subjects

Physics - Instrumentation and Detectors

Abstract

Feature sizes in integrated circuits have decreased substantially over time, and it has become increasingly difficult to three-dimensionally image these complex circuits after fabrication. This can be important for process development, defect analysis, and detection of unexpected structures in externally sourced chips, among other applications. Here, we report on a non-destructive, tabletop approach that addresses this imaging problem through x-ray tomography, which we uniquely realize with an instrument that combines a scanning electron microscope (SEM) with a transition-edge sensor (TES) x-ray spectrometer. Our approach uses the highly focused SEM electron beam to generate a small x-ray generation region in a carefully designed target layer that is placed over the sample being tested. With the high collection efficiency and resolving power of a TES spectrometer, we can isolate x-rays generated in the target from background and trace their paths through regions of interest in the sample layers, providing information about the various materials along the x-ray paths through their attenuation functions. We have recently demonstrated our approach using a 240 Mo/Cu bilayer TES prototype instrument on a simplified test sample containing features with sizes of $\sim$1 $\mu$m. Currently, we are designing and building a 3000 Mo/Au bilayer TES spectrometer upgrade, which is expected to improve the imaging speed by factor of up to 60 through a combination of increased detector number and detector speed., Comment: 5 pages, 3 figures, published in IEEE Transactions on Applied Superconductivity

Published

2022

9. Generic character of charge and spin density waves in superconducting cuprates

Author

Lee, Sangjun, Huang, Edwin W., Johnson, Thomas A., Guo, Xuefei, Husain, Ali A., Mitrano, Matteo, Lu, Kennan, Zakrzewski, Alexander V., de la &ntilde, Gilberto, Peng, Yingying, Lee, Sang-Jun, Jang, Hoyoung, Lee, Jun-Sik, Joe, Young Il, Dorisese, William B., Szypryt, Paul, Swetz, Daniel S., Aczel, Adam A., Macdougall, Gregory J., Kivelson, Steven A., Fradkin, Eduardo, and Abbamonte, Peter

Subjects

Condensed Matter - Superconductivity

Abstract

Understanding the nature of charge density waves (CDW) in cuprate superconductors has been complicated by material specific differences. A striking example is the opposite doping dependence of the CDW ordering wavevector in La-based and Y-based compounds, the two families where charge ordering is strongest and best characterized. Here we report a combined resonant soft X-ray scattering (RSXS) and neutron scattering study of charge and spin density waves in isotopically enriched La$_{1.8-x}$ Eu$_{0.2}$ Sr$_{x}$ CuO$_{4}$ over a range of doping $0.07 \leq x \leq 0.20$. For all dopings studied by RSXS, we find that the CDW amplitude is approximately temperature-independent and develops well above experimentally accessible temperatures. Surprisingly, the CDW ordering wavevector shows a non-monotonic temperature dependence, with a sudden change occurring at temperatures near the SDW onset temperature. We describe this behavior with a Landau-Ginzburg theory for an incommensurate CDW in a metallic system with a finite charge compressibility and CDW-SDW coupling. Our Landau-Ginzburg analysis suggests that the ordering wavevector at high temperatures decreases with increased doping. This behavior is opposite to the trend at low temperatures and highly reminiscent of the doping dependence seen in YBa$_2$ Cu$_3$ O$_{6+\delta}$ , suggesting a common origin of the CDW in hole-doped cuprate superconductors., Comment: Manuscript submitted to PNAS; ArXiv version formatted in Revtex4-2; Supplementary Material included as appendices; 20 pages, 14 figures (6 in the main text), and 41 references

Published

2021

10. SCExAO/MEC and CHARIS Discovery of a Low Mass, 6 AU-Separation Companion to HIP 109427 using Stochastic Speckle Discrimination and High-Contrast Spectroscopy

Author

Steiger, Sarah, Currie, Thayne, Brandt, Timothy D., Guyon, Olivier, Kuzuhara, Masayuki, Chilcote, Jeffrey, Groff, Tyler D., Lozi, Julien, Walter, Alexander B., Fruitwala, Neelay, Bailey III, John I., Zobrist, Nicholas, Swimmer, Noah, Lipartito, Isabel, Smith, Jennifer Pearl, Bockstiegel, Clint, Meeker, Seth R., Coiffard, Gregoire, Dodkins, Rupert, Szypryt, Paul, Davis, Kristina K., Daal, Miguel, Bumble, Bruce, Vievard, Sebastien, Sahoo, Ananya, Deo, Vincent, Jovanovic, Nemanja, Martinache, Frantz, Tamura, Motohide, Kasdin, N. Jeremy, and Mazin, Benjamin A.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We report the direct imaging discovery of a low-mass companion to the nearby accelerating A star, HIP 109427, with the Subaru Coronagraphic Extreme Adaptive Optics (SCExAO) instrument coupled with the MKID Exoplanet Camera (MEC) and CHARIS integral field spectrograph. CHARIS data reduced with reference star PSF subtraction yield 1.1-2.4 $\mu$m spectra. MEC reveals the companion in $Y$ and $J$ band at a comparable signal-to-noise ratio using stochastic speckle discrimination, with no PSF subtraction techniques. Combined with complementary follow-up $L_{\rm p}$ photometry from Keck/NIRC2, the SCExAO data favors a spectral type, effective temperature, and luminosity of M4-M5.5, 3000-3200 $K$, and $\log_{10}(L/L_{\rm \odot}) = -2.28^{+0.04}_{-0.04}$, respectively. Relative astrometry of HIP 109427 B from SCExAO/CHARIS and Keck/NIRC2, and complementary Gaia-Hipparcos absolute astrometry of the primary favor a semimajor axis of $6.55^{+3.0}_{-0.48}$ au, an eccentricity of $0.54^{+0.28}_{-0.15}$, an inclination of $66.7^{+8.5}_{-14}$ degrees, and a dynamical mass of $0.280^{+0.18}_{-0.059}$ $M_{\odot}$. This work shows the potential for extreme AO systems to utilize speckle statistics in addition to widely-used post-processing methods to directly image faint companions to nearby stars near the telescope diffraction limit., Comment: 13 pages, 7 figures, 3 tables

Published

2021

11. The MKID Exoplanet Camera for Subaru SCExAO

Author

Walter, Alexander B., Fruitwala, Neelay, Steiger, Sarah, Bailey III, John I., Zobrist, Nicholas, Swimmer, Noah, Lipartito, Isabel, Smith, Jennifer Pearl, Meeker, Seth R., Bockstiegel, Clint, Coiffard, Gregoire, Dodkins, Rupert, Szypryt, Paul, Davis, Kristina K., Daal, Miguel, Bumble, Bruce, Collura, Giulia, Guyon, Olivier, Lozi, Julien, Vievard, Sebastien, Jovanovic, Nemanja, Martinache, Frantz, Currie, Thayne, and Mazin, Benjamin A.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We present the MKID Exoplanet Camera (MEC), a z through J band (800 - 1400 nm) integral field spectrograph located behind The Subaru Coronagraphic Extreme Adaptive Optics (SCExAO) at the Subaru Telescope on Maunakea that utilizes Microwave Kinetic Inductance Detectors (MKIDs) as the enabling technology for high contrast imaging. MEC is the first permanently deployed near-infrared MKID instrument and is designed to operate both as an IFU, and as a focal plane wavefront sensor in a multi-kHz feedback loop with SCExAO. The read noise free, fast time domain information attainable by MKIDs allows for the direct probing of fast speckle fluctuations that currently limit the performance of most high contrast imaging systems on the ground and will help MEC achieve its ultimate goal of reaching contrasts of $10^{-7}$ at 2$\lambda / D$. Here we outline the instrument details of MEC including the hardware, firmware, and data reduction and analysis pipeline. We then discuss MEC's current on-sky performance and end with future upgrades and plans., Comment: To be published in Publications of the Astronomical Society of the Pacific

Published

2020

12. A tabletop X-ray tomography instrument for nanometer-scale imaging: reconstructions

Author

Levine, Zachary H., Alpert, Bradley K., Dagel, Amber L., Fowler, Joseph W., Jimenez, Edward S., Nakamura, Nathan, Swetz, Daniel S., Szypryt, Paul, Thompson, Kyle R., and Ullom, Joel N.

Published

2023

13. Wide-band Parametric Amplifier Readout and Resolution of Optical Microwave Kinetic Inductance Detectors

Author

Zobrist, Nicholas, Eom, Byeong Ho, Day, Peter, Mazin, Benjamin A., Meeker, Seth R., Bumble, Bruce, LeDuc, Henry G., Coiffard, Gérgoire, Szypryt, Paul, Fruitwala, Neelay, Lipartito, Isabel, and Bockstiegel, Clint

Subjects

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

Abstract

The energy resolution of a single photon counting Microwave Kinetic Inductance Detector (MKID) can be degraded by noise coming from the primary low temperature amplifier in the detector's readout system. Until recently, quantum limited amplifiers have been incompatible with these detectors due to dynamic range, power, and bandwidth constraints. However, we show that a kinetic inductance based traveling wave parametric amplifier can be used for this application and reaches the quantum limit. The total system noise for this readout scheme was equal to ~2.1 in units of quanta. For incident photons in the 800 to 1300 nm range, the amplifier increased the average resolving power of the detector from ~6.7 to 9.3 at which point the resolution becomes limited by noise on the pulse height of the signal. Noise measurements suggest that a resolving power of up to 25 is possible if redesigned detectors can remove this additional noise source.

Published

2019

14. Generic character of charge and spin density waves in superconducting cuprates

Author

Lee, Sangjun, Huang, Edwin W., Johnson, Thomas A., Guo, Xuefei, Husain, Ali A., Mitrano, Matteo, Lu, Kannan, Zakrzewski, Alexander V., de la Peña, Gilberto A., Peng, Yingying, Huang, Hai, Lee, Sang-Jun, Jang, Hoyoung, Lee, Jun-Sik, Joe, Young Il, Doriese, William B., Szypryt, Paul, Swetz, Daniel S., Chi, Songxue, Aczel, Adam A., MacDougall, Gregory J., Kivelson, Steven A., Fradkin, Eduardo, and Abbamonte, Peter

Published

2022

15. DARKNESS: A Microwave Kinetic Inductance Detector Integral Field Spectrograph for High-Contrast Astronomy

Author

Meeker, Seth R., Mazin, Benjamin A., Walter, Alex B., Strader, Paschal, Fruitwala, Neelay, Bockstiegel, Clint, Szypryt, Paul, Ulbricht, Gerhard, Coiffard, Gregoire, Bumble, Bruce, Cancelo, Gustavo, Zmuda, Ted, Treptow, Ken, Wilcer, Neal, Collura, Giulia, Dodkins, Rupert, Lipartito, Isabel, Zobrist, Nicholas, Bottom, Michael, Shelton, J. Chris, Mawet, Dimitri, van Eyken, Julian C., Vasisht, Gautam, and Serabyn, Eugene

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

We present DARKNESS (the DARK-speckle Near-infrared Energy-resolving Superconducting Spectrophotometer), the first of several planned integral field spectrographs to use optical/near-infrared Microwave Kinetic Inductance Detectors (MKIDs) for high-contrast imaging. The photon counting and simultaneous low-resolution spectroscopy provided by MKIDs will enable real-time speckle control techniques and post-processing speckle suppression at framerates capable of resolving the atmospheric speckles that currently limit high-contrast imaging from the ground. DARKNESS is now operational behind the PALM-3000 extreme adaptive optics system and the Stellar Double Coronagraph at Palomar Observatory. Here we describe the motivation, design, and characterization of the instrument, early on-sky results, and future prospects., Comment: 17 pages, 17 figures. PASP Published

Published

2018

16. Highly Multiplexible Thermal Kinetic Inductance Detectors for X-Ray Imaging Spectroscopy

Author

Ulbricht, Gerhard, Mazin, Benjamin A., Szypryt, Paul, Walter, Alex B., Bockstiegel, Clint, and Bumble, Bruce

Subjects

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

Abstract

For X-ray imaging spectroscopy, high spatial resolution over a large field of view is often as important as high energy resolution, but current X-ray detectors do not provide both in the same device. Thermal Kinetic Inductance Detectors (TKIDs) are being developed as they offer a feasible way to combine the energy resolution of transition edge sensors with pixel counts approaching CCDs and thus promise significant improvements for many X-ray spectroscopy applications. TKIDs are a variation of Microwave Kinetic Inductance Detectors (MKIDs) and share their multiplexibility: working MKID arrays with 2024 pixels have recently been demonstrated and much bigger arrays are under development. In this work, we present our first working TKID prototypes which are able to achieve an energy resolution of 75 eV at 5.9 keV, even though their general design still has to be optimized. We further describe TKID fabrication, characterization, multiplexing and working principle and demonstrate the necessity of a data fitting algorithm in order to extract photon energies. With further design optimizations we expect to be able to improve our TKID energy resolution to less than 10 eV at 5.9 keV., Comment: 7 pages, 4 figures, accepted for publication in Applied Physics Letters

Published

2015

17. Science with KRAKENS

Author

Mazin, Benjamin A., Becker, George, France, Kevin, Fraser, Wesley, Howell, D. Andrew, Jones, Tucker, Meeker, Seth, O'Brien, Kieran, Prochaska, Jason X., Siana, Brian, Strader, Matthew, Szypryt, Paul, Tendulkar, Shriharsh P., Treu, Tommaso, and Vasisht, Gautam

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Keck science community is entering an era of unprecedented change. Powerful new instrument like ZTF, JWST, LSST, and the ELTs will catalyze this change, and we must be ready to take full advantage to maintain our position of scientific leadership. The best way to do this is to continue the UC and Caltech tradition of technical excellence in instrumentation. In this whitepaper we describe a new instrument called KRAKENS to help meet these challenges. KRAKENS uses a unique detector technology (MKIDs) to enable groundbreaking science across a wide range of astrophysical research topics. This document will lay out the detailed expected science return of KRAKENS., Comment: 19 pages, 17 figures

Published

2015

18. Design and Development Status of MKID Integral Field Spectrographs for High Contrast Imaging

Author

Meeker, Seth, Mazin, Benjamin, Jensen-Clem, Rebecca, Walter, Alex, Szypryt, Paul, Strader, Matthew, and Bockstiegel, Clint

Subjects

adaptive optics, detectors, instrumentation, high angular resolotion, planetary systems

Abstract

We report on the design and development progress of two Microwave Kinetic Inductance Detector (MKID) integral field spectrographs (IFSs) for high-contrast astronomy applications. DARKNESS is a 10,000 pixel MKID IFS that will integrate with the coronagraphs at Palomar Observatory, as well as directly with the Palm- 3000 (P3K) extreme adaptive optics (AO) system. MEC is a 20,440 pixel MKID IFS that will integrate with the Subaru Coronagraphic Extreme AO (SCExAO) system at the Subaru Telescope. Both IFSs are optimized for 700 to 1400 nm bandpasses to provide low resolution spectroscopy across I and J bands. MKIDs are a promising technology for overcoming the current contrast ceiling in coronagraphic instruments imposed by atmospheric speckles that vary on 1-second timescales. These speckles vary too slowly to average out with long exposures, and too quickly to control in real time with conventional focal plane detectors or to subtract reliably with differential imaging. With these instruments we will demonstrate how the high time resolution of MKIDs allows focal plane speckle nulling at the speed necessary to control atmospheric speckles in real time, and discrimination of speckles from faint companions during post-processing using statistical techniques similar to the “dark speckle” approach. Additionally, the energy resolution of MKIDs allows either form of speckle suppression to be applied as a function of wavelength. First-light for DARKNESS is scheduled for July 2016 and first-light for MEC is targeted for Fall 2016/Winter 2017.

Published

2015

19. Nanoscale Three-Dimensional Imaging of Integrated Circuits Using a Scanning Electron Microscope and Transition-Edge Sensor Spectrometer.

Author

Nakamura, Nathan, Szypryt, Paul, Dagel, Amber L., Alpert, Bradley K., Bennett, Douglas A., Doriese, William Bertrand, Durkin, Malcolm, Fowler, Joseph W., Fox, Dylan T., Gard, Johnathon D., Goodner, Ryan N., Harris, James Zachariah, Hilton, Gene C., Jimenez, Edward S., Kernen, Burke L., Larson, Kurt W., Levine, Zachary H., McArthur, Daniel, Morgan, Kelsey M., and O'Neil, Galen C.

Subjects

*THREE-dimensional integrated circuits, *X-ray detection, *SCANNING electron microscopes, *X-ray imaging, *SPECTROMETERS, *ELECTRON beams, *NANOSTRUCTURED materials

Abstract

X-ray nanotomography is a powerful tool for the characterization of nanoscale materials and structures, but it is difficult to implement due to the competing requirements of X-ray flux and spot size. Due to this constraint, state-of-the-art nanotomography is predominantly performed at large synchrotron facilities. We present a laboratory-scale nanotomography instrument that achieves nanoscale spatial resolution while addressing the limitations of conventional tomography tools. The instrument combines the electron beam of a scanning electron microscope (SEM) with the precise, broadband X-ray detection of a superconducting transition-edge sensor (TES) microcalorimeter. The electron beam generates a highly focused X-ray spot on a metal target held micrometers away from the sample of interest, while the TES spectrometer isolates target photons with a high signal-to-noise ratio. This combination of a focused X-ray spot, energy-resolved X-ray detection, and unique system geometry enables nanoscale, element-specific X-ray imaging in a compact footprint. The proof of concept for this approach to X-ray nanotomography is demonstrated by imaging 160 nm features in three dimensions in six layers of a Cu-SiO2 integrated circuit, and a path toward finer resolution and enhanced imaging capabilities is discussed. [ABSTRACT FROM AUTHOR]

Published

2024

20. A Tabletop X-Ray Tomography Instrument for Nanometer-Scale Imaging: Demonstration of the 1,000-Element Transition-Edge Sensor Subarray

Author

Szypryt, Paul, primary, Nakamura, Nathan, additional, Becker, Daniel T., additional, Bennett, Douglas A., additional, Dagel, Amber L., additional, Doriese, W. Bertrand, additional, Fowler, Joseph W., additional, Gard, Johnathon D., additional, Harris, J. Zachariah, additional, Hilton, Gene C., additional, Imrek, Jozsef, additional, Jimenez, Edward S., additional, Larson, Kurt W., additional, Levine, Zachary H., additional, Mates, John A. B., additional, McArthur, D., additional, Miaja-Avila, Luis, additional, Morgan, Kelsey M., additional, O'Neil, Galen C., additional, Ortiz, Nathan J., additional, Pappas, Christine G., additional, Schmidt, Daniel R., additional, Thompson, Kyle R., additional, Ullom, Joel N., additional, Vale, Leila, additional, Vissers, Michael R., additional, Walker, Christopher, additional, Weber, Joel C., additional, Wessels, Abigail L., additional, Wheeler, Jason W., additional, and Swetz, Daniel S., additional

Published

2023

21. Computed Models of Natural Radiation Backgrounds in Qubits and Superconducting Detectors

Author

Fowler, Joseph, Florang, Ian Fogarty, Nakamura, Nathan, Swetz, Daniel, Szypryt, Paul, and Ullom, Joel

Abstract

Naturally occurring radiation backgrounds cause correlated decoherence events in superconducting qubits. These backgrounds include both gamma rays produced by terrestrial radioisotopes and cosmic rays. We use the particle-transport code Geant4 and the PARMA summary of the cosmic-ray spectrum to model both sources of natural radiation and to study their effects in the typical substrates used in superconducting electronics. We focus especially on three rates that summarize radiation's effect on substrates. We give analytic expressions for these rates, and how they depend upon parameters including laboratory elevation, substrate material, ceiling thickness, and wafer area and thickness. The modeled rates and the distribution of event energies are consistent with our earlier measurement of radiation backgrounds using a silicon thermal kinetic-inductance detector.

Published

2025

22. A Tabletop X-Ray Tomography Instrument for Nanometer-Scale Imaging: Reconstructions

Author

Levine, Zachary, primary, Alpert, Bradley, additional, Dagel, Amber, additional, Fowler, Joseph, additional, Jiminez, Edward, additional, Nakamura, Nathan, additional, Swetz, Daniel, additional, Szypryt, Paul, additional, Thompson, Kyle, additional, and Ullom, Joel, additional

Published

2022

23. No tImplementing transition--edge sensors in a tabletop edge sensors in a tabletop xx--ray CT system for imaging applicationsray CT system for imaging applicationsitle.

Author

Alpert, Bradley, primary, Becker, Daniel, additional, Bennett, Douglas, additional, Doriese, W, additional, Durkin, Malcolm, additional, Fowler, Joseph, additional, Gard, Johnathon, additional, Imrek, Jozsef, additional, Levine, Zachary, additional, Mates, John, additional, Miaja-Avila, Luis, additional, Morgan, Kelsey, additional, Nakamura, Nathan, additional, O?Neil, Galen, additional, Ortiz, Nathan, additional, Reintsema, Carl, additional, Schmidt, Daniel, additional, Swetz, Daniel, additional, Szypryt, Paul, additional, Ullom, Joel, additional, Vale, Leila, additional, Weber, Joel, additional, Wessels, Abigail, additional, Dagel, Amber, additional, Dalton, Gabriella, additional, Harris, Jacob, additional, Jimenez, Edward, additional, McArthur, Daniel, additional, Thompson, Kyle, additional, Walker, Christopher, additional, Wheeler, Jason, additional, Ablerto, Julien, additional, Griveau, Damien, additional, and Silvent, Jeremie, additional

Published

2022

24. An MKID camera for use behind MagAO-X

Author

Swimmer, Noah J., primary, Mazin, Benjamin A., additional, Bailey, John I., additional, Males, Jared ., additional, Coiffard, Grégoire, additional, Daal, Miguel, additional, Davis, Kristina K., additional, Szypryt, Paul, additional, Meeker, Seth R., additional, Walter, Alexander B., additional, Bockstiegel, Clint, additional, Fruitwala, Neelay, additional, Lipartito, Isabel, additional, Zobrist, Nicholas, additional, Steiger, Sarah, additional, Smith, Jennifer P., additional, and Clay, Hawkins, additional

Published

2022

25. Development of Microwave Kinetic Inductance Detectors for Applications in Optical to Near-IR Astronomy

Author

Szypryt, Paul

Subjects

Condensed matter physics, Astronomy, Low Temperature Detectors, Microwave Kinetic Inductance Detectors, Superconducting Devices

Abstract

Microwave Kinetic Inductance Detectors (MKIDs) are a superconducting detector technology capable of measuring photon arrival times to the microsecond level with moderate energy resolution. MKIDs are essentially superconducting microresonators, and when a photon is incident on the inductor portion of the microresonator, the inductance temporarily increases and the resonant frequency decreases. An array of MKIDs can be naturally multiplexed and read out by assigning each detector a unique resonant frequency during fabrication and coupling the detectors to a single transmission line. A frequency domain multiplexing scheme can then be used to pass a microwave frequency comb through the transmission line to probe the microresonators and listen for photon events. In order to meet the demands of the next generation of astronomical instrumentation, MKIDs need improvements in three main areas: pixel yield, energy resolution, and quantum efficiency. I have investigated new fabrication techniques and materials systems to address these issues. Most notably, I have fabricated MKIDs with platinum silicide as the superconducting layer and have measured especially high resonator internal quality factors (>10^6). Platinum silicide films can also be made much more uniformly than the traditional sub-stoichiometric titanium nitride films used in the field, increasing pixel yield. In addition, platinum silicide intrinsically has a higher absorption rate for optical photons than titanium nitride. These platinum silicide detectors are used in two new MKID planet imaging instruments, the Dark-speckle Near-IR Energy-resolved Superconducting Spectrophotometer (DARKNESS) and the MKID Exoplanet Camera (MEC). Optical MKIDs have already been demonstrated on sky with the first generation MKID instrument, the Array Camera for Optical to Near-IR Spectrophotometry (ARCONS). I have used ARCONS to primarily observe compact objects, such as AM CVn systems and detached white dwarfs. In particular, I used ARCONS to observe orbital expansion in the eclipsing binary system SDSS J0926+3624, with a period rate of change of 9.68 microseconds/year.I open my thesis with an general introduction to the field of low temperature detectors and describe the role that MKIDs have within the field. In Chapter 2, I provide a detailed description of the detection principles behind MKIDs and define important superconducting resonator parameters.In Chapter 3, I move on to describe some of the issues that were limiting the performance of MKIDs. I examine some of the early fabrication techniques and material systems utilized to try to mitigate these issues. In Chapter 4, I describe the platinum silicide material system, which proved to be the most important recent development for advancing the detectors described in this work. The early PtSi work was done using simple one-layer test masks, but the material system was later adapted to the full-multilayer fabrication process. The fabrication of large-format MKID arrays using PtSi for the DARKNESS and MEC arrays is described in detail in Chapter 5.I conclude my thesis with an overview of some of the astronomical applications of MKIDs. More specifically, I describe my work with compact binary systems that was done with ARCONS. Finally, I explain exciting new MKID applications that are only recently becoming possible as the technology continues to advance.

Published

2017

26. A Tabletop X-Ray Tomography Instrument for Nanometer-Scale Imaging: Integration of a Scanning Electron Microscope with a Transition-Edge Sensor Spectrometer

Author

Nakamura, Nathan, Szypryt, Paul, Dagel, Amber L., Alpert, Bradley K., Bennett, Douglas A., Doriese, W. Bertrand, Durkin, Malcolm, Fowler, Joseph W., Fox, Dylan T., Gard, Johnathon D., Goodner, Ryan N., Harris, J. Zachariah, Hilton, Gene C., Jimenez, Edward S., Kernen, Burke L., Larson, Kurt W., Levine, Zachary H., McArthur, Daniel, Morgan, Kelsey M., O'Neil, Galen C., Ortiz, Nathan J., Pappas, Christine G., Reintsema, Carl D., Schmidt, Daniel R., Schulz, Peter A., Thompson, Kyle R., Ullom, Joel N., Vale, Leila, Vaughan, Courtenay T., Walker, Christopher, Weber, Joel C., Wheeler, Jason W., and Swetz, Daniel S.

Subjects

Physics - Instrumentation and Detectors, FOS: Physical sciences, Instrumentation and Detectors (physics.ins-det)

Abstract

X-ray nanotomography has proven to be a powerful tool for the characterization of nanoscale materials and structures, such as energy storage devices and next-generation integrated circuits (ICs). In a nanotomography measurement the X-ray spot size must be kept at the nanoscale, which significantly limits the total amount of X-ray flux achievable. Due to this photon limit, nanotomography has been generally restricted to synchrotron facilities, where higher flux can be maintained even at nanoscale spot sizes. Here, we present a laboratory-scale nanotomography instrument, deemed TOMCAT (TOMographic Circuit Analysis Tool). TOMCAT combines the electron beam of a scanning electron microscope (SEM) with the precise, broadband X-ray detection of a superconducting transition-edge sensor (TES) spectrometer. The electron beam generates a highly focused X-ray spot in a metal target, while the TES spectrometer isolates target photons with high signal-to-noise. TOMCAT design is discussed, including target optimization, system geometry, and scan procedures. Features which are 160 nm wide are resolved in three-dimensional images on a Cu-SiO$_2$ IC sample, demonstrating the capabilities of laboratory-scale nanotomography based on a focused electron beam and TES spectrometer., Comment: The following article has been submitted to Review of Scientific Instruments

Published

2022

27. Background and Blended Spectral Line Reduction in Precision Spectroscopy of EUV and X-ray Transitions in Highly Charged Ions.

Author

Hosier, Adam, Dipti, Yang, Yang, Szypryt, Paul, Mondeel, Grant P., Naing, Aung, Tan, Joseph N., Silwal, Roshani, O'Neil, Galen, Lapierre, Alain, Blundell, Steven A., Gillaspy, John D., Gwinner, Gerald, Villari, Antonio C. C., Ralchenko, Yuri, and Takacs, Endre

Subjects

SPECTRAL lines, X-ray spectroscopy, ULTRAVIOLET spectra, HEAVY elements, HEAVY ions

Abstract

Extreme ultraviolet spectra of Na-like and Mg-like Os and Ir were recorded at the National Institute of Standards and Technology using a grazing incidence spectrometer. We report a method in EBIT spectral analysis that reduces signals from contaminant lines of known or unknown origin. We utilize similar ion charge distributions of heavy highly charged ions that create similar potentials for lighter contaminating background elements. First-order approximations to ion distributions are presented to demonstrate differences between impurity elements with and without heavy ions present. [ABSTRACT FROM AUTHOR]

Published

2023

28. Determination of Electron Beam Energy in Measuring the Electron-Impact Ionization Cross Section of He-like Fe 24+.

Author

Yang, Yang, Dipti, Gall, Amy, O'Neil, Galen, Szypryt, Paul, Hosier, Adam, Foster, Adam, Naing, Aung, Tan, Joseph N., Schultz, David R., Smith, Randall, Brickhouse, Nancy, Ralchenko, Yuri, and Takacs, Endre

Subjects

ELECTRON beams, ELECTRON impact ionization, X-ray spectra, ION traps, ION beams, MICROCALORIMETRY

Abstract

In an effort to measure electron-impact ionization (EII) cross-sections of He-like F e 24 + at the electron beam ion trap (EBIT) facility of the National Institute of Standards and Technology (NIST), we have experimentally determined the corrections to the nominal beam energy determined by the voltages applied to the EBIT. High-resolution X-ray spectra were recorded at nominal electron beam energies between 6660 eV and 6750 eV using X-ray microcalorimetry based upon an array of 192 transition-edge sensors (TES). A large-scale collisional-radiative simulation of the non-Maxwellian EBIT plasma using relevant atomic data calculated with Flexible Atomic Code allowed us to determine the space-charge correction due to the electron beam including the neutralization factor by the ion cloud of the EBIT. [ABSTRACT FROM AUTHOR]

Published

2023

29. Analysis of E3 Transitions in Ag-like High-Z Ions Observed with the NIST EBIT.

Author

Takacs, Endre, Dipti, La Mantia, David S., Yang, Yang, Hosier, Adam, Naing, Aung, Szypryt, Paul, Staiger, Hunter, Tan, Joseph N., and Ralchenko, Yuri

Subjects

HEAVY elements, SPECTRAL lines, HEAVY ions, IONS, KINEMATICS

Abstract

We report measurements and identification of the E3 4f 7 / 2 , 5 / 2 -5s 1 / 2 transitions and E1 allowed transitions in Ag-like W (Z = 74), Re (Z = 75), and Ir (Z = 77). The spectra were recorded at the NIST EBIT using a grazing-incidence EUV spectrometer. The present measured wavelengths and theoretical predictions using GRASP2K calculations confirm previous observations of the same E3 transitions in Ag-like W. Our collisional–radiative model using the NOMAD code offers an insight into the population kinematics for Ag-like ions of heavy elements. We discuss the observed spectra and comparisons of the measured and simulated spectral lines. [ABSTRACT FROM AUTHOR]

Published

2023

30. The use and abuse of locking plates

Author

Szypryt, Paul and Forward, Daren

Published

2009

31. Design of a 3000-Pixel Transition-Edge Sensor X-Ray Spectrometer for Microcircuit Tomography

Author

Szypryt, Paul, primary, Bennett, Douglas A., additional, Boone, William J., additional, Dagel, Amber L., additional, Dalton, Gabriella, additional, Doriese, W. Bertrand, additional, Durkin, M., additional, Fowler, Joseph W., additional, Garboczi, Edward J., additional, Gard, Johnathon D., additional, Hilton, Gene C., additional, Imrek, Jozsef, additional, Jimenez, Edward S., additional, Kotsubo, Vincent Y., additional, Larson, Kurt, additional, Levine, Zachary H., additional, Mates, John A. B., additional, McArthur, Daniel, additional, Morgan, Kelsey M., additional, Nakamura, Nathan, additional, O'Neil, Galen C., additional, Ortiz, Nathan J., additional, Pappas, Christine G., additional, Reintsema, Carl D., additional, Schmidt, Daniel R., additional, Swetz, Daniel S., additional, Thompson, Kyle R., additional, Ullom, Joel N., additional, Walker, Christopher, additional, Weber, Joel C., additional, Wessels, Abigail L., additional, and Wheeler, Jason W., additional

Published

2021

32. On-sky demonstration of stochastic speckle discrimination for companion detection with the MKID Exoplanet Camera (MEC)

Author

Steiger, Sarah, primary, Currie, Thayne M., additional, Brandt, Timothy D., additional, Guyon, Olivier, additional, Kuzuhara, Masayuki, additional, Chilcote, Jeffrey, additional, Groff, Tyler, additional, Lozi, Julien, additional, Walter, Alexander B., additional, Fruitwala, Neelay, additional, Bailey, John I., additional, Zobrist, Nicholas, additional, Swimmer, Noah, additional, Lipartito, Isabel, additional, Smith, Jennifer P., additional, Bockstiegel, Clint, additional, Meeker, Seth R., additional, Coiffard, Gregoire, additional, Dodkins, Rupert, additional, Szypryt, Paul, additional, Davis, Kristina K., additional, Daal, Miguel, additional, Bumble, Bruce, additional, Vievard, Sébastien, additional, Sahoo, Ananya, additional, Deo, Vincent, additional, Jovanovic, Nemanja, additional, Martinache, Frantz, additional, Tamura, Motohide, additional, and Mazin, Benjamin, additional

Published

2021

33. Mitigation of Finite Bandwidth Effects in Time-Division-Multiplexed SQUID Readout of TES Arrays

Author

Durkin, Malcolm, primary, Adams, Joseph S., additional, Bandler, Simon R., additional, Chervenak, James A., additional, Denison, Edward V., additional, Doriese, William B., additional, Duff, Shannon M., additional, Finkbeiner, Fred M., additional, Fowler, Joseph W., additional, Gard, Johnathon D., additional, Hilton, Gene C., additional, Hummatov, Ruslan, additional, Irwin, Kent D., additional, Joe, Young Il, additional, Kelley, Richard L., additional, Kilbourne, Caroline A., additional, Miniussi, Antoine R., additional, Morgan, Kelsey M., additional, O'Neil, Galen C., additional, Pappas, Christine G., additional, Porter, Frederick S., additional, Reintsema, Carl D., additional, Rudman, David A., additional, Sakai, Kazuhiro, additional, Smith, Stephen J., additional, Stevens, Robert W., additional, Swetz, Daniel S., additional, Szypryt, Paul, additional, Ullom, Joel N., additional, Vale, Leila R., additional, and Wakeham, Nicholas, additional

Published

2021

34. SCExAO/MEC and CHARIS Discovery of a Low-mass, 6 au Separation Companion to HIP 109427 Using Stochastic Speckle Discrimination and High-contrast Spectroscopy*

Author

Steiger, Sarah, primary, Currie, Thayne, additional, Brandt, Timothy D., additional, Guyon, Olivier, additional, Kuzuhara, Masayuki, additional, Chilcote, Jeffrey, additional, Groff, Tyler D., additional, Lozi, Julien, additional, Walter, Alexander B., additional, Fruitwala, Neelay, additional, Bailey, III, John I., additional, Zobrist, Nicholas, additional, Swimmer, Noah, additional, Lipartito, Isabel, additional, Smith, Jennifer Pearl, additional, Bockstiegel, Clint, additional, Meeker, Seth R., additional, Coiffard, Gregoire, additional, Dodkins, Rupert, additional, Szypryt, Paul, additional, Davis, Kristina K., additional, Daal, Miguel, additional, Bumble, Bruce, additional, Vievard, Sebastien, additional, Sahoo, Ananya, additional, Deo, Vincent, additional, Jovanovic, Nemanja, additional, Martinache, Frantz, additional, Doppmann, Greg, additional, Tamura, Motohide, additional, Kasdin, N. Jeremy, additional, and Mazin, Benjamin A., additional

Published

2021

35. On-sky demonstration of stochastic speckle discrimination for companion detection with the MKID Exoplanet Camera (MEC)

Author

Shaklan, Stuart B., Ruane, Garreth J., Steiger, Sarah, Currie, Thayne M., Brandt, Timothy D., Guyon, Olivier, Kuzuhara, Masayuki, Chilcote, Jeffrey, Groff, Tyler, Lozi, Julien, Walter, Alexander B., Fruitwala, Neelay, Bailey, John I., Zobrist, Nicholas, Swimmer, Noah, Lipartito, Isabel, Smith, Jennifer P., Bockstiegel, Clint, Meeker, Seth R., Coiffard, Gregoire, Dodkins, Rupert, Szypryt, Paul, Davis, Kristina K., Daal, Miguel, Bumble, Bruce, Vievard, Sebastien, Sahoo, Ananya, Deo, Vincent, Jovanovic, Nemanja, Martinache, Frantz, Tamura, Motohide, Mazin, Benjamin, Shaklan, Stuart B., Ruane, Garreth J., Steiger, Sarah, Currie, Thayne M., Brandt, Timothy D., Guyon, Olivier, Kuzuhara, Masayuki, Chilcote, Jeffrey, Groff, Tyler, Lozi, Julien, Walter, Alexander B., Fruitwala, Neelay, Bailey, John I., Zobrist, Nicholas, Swimmer, Noah, Lipartito, Isabel, Smith, Jennifer P., Bockstiegel, Clint, Meeker, Seth R., Coiffard, Gregoire, Dodkins, Rupert, Szypryt, Paul, Davis, Kristina K., Daal, Miguel, Bumble, Bruce, Vievard, Sebastien, Sahoo, Ananya, Deo, Vincent, Jovanovic, Nemanja, Martinache, Frantz, Tamura, Motohide, and Mazin, Benjamin

Abstract

We present an on-sky demonstration of a post-processing technique for companion detection called Stochastic Speckle Discrimination (SSD) and its ability to improve the detection of faint companions using SCExAO and the MKID Exoplanet Camera (MEC). Using this SSD technique, MEC is able to resolve companions at a comparable signal to noise to other integral field spectrographs solely utilizing photon arrival time information and without the use of any PSF subtraction techniques. SSD takes advantage of photon counting detectors, like the MKID detector found in MEC, to directly probe the photon arrival time statistics that describe the speckle field and allows us to identify and distinguish problematic speckles from companions of comparable brightness in an image. This technique is especially effective at close angular separations where the speckle intensity is large and where traditional post-processing techniques, like ADI, suffer.

Published

2021

36. The MKID Exoplanet Camera for Subaru SCExAO

Author

Walter, Alexander B., primary, Fruitwala, Neelay, additional, Steiger, Sarah, additional, Bailey, John I., additional, Zobrist, Nicholas, additional, Swimmer, Noah, additional, Lipartito, Isabel, additional, Smith, Jennifer Pearl, additional, Meeker, Seth R., additional, Bockstiegel, Clint, additional, Coiffard, Gregoire, additional, Dodkins, Rupert, additional, Szypryt, Paul, additional, Davis, Kristina K., additional, Daal, Miguel, additional, Bumble, Bruce, additional, Collura, Giulia, additional, Guyon, Olivier, additional, Lozi, Julien, additional, Vievard, Sebastien, additional, Jovanovic, Nemanja, additional, Martinache, Frantz, additional, Currie, Thayne, additional, and Mazin, Benjamin A., additional

Published

2020

37. Generic character of charge and spin density waves in superconducting cuprates.

Author

Sangjun Lee, Huang, Edwin W., Johnson, Thomas A., Guo, Xuefei, Husain, Ali A., Mitrano, Matteo, Lu, Kannan, Zakrzewski, Alexander V., de la Peña, Gilberto A., Yingying Peng, Hai Huang, Sang-Jun Lee, Hoyoung Jang, Jun-Sik Lee, Young Il Joe, Doriese, William B., Szypryt, Paul, Swetz, Daniel S., Songxue Chi, and Aczel, Adam A.

Subjects

CHARGE density waves, CUPRATES, MELT spinning, NEUTRON scattering, X-ray scattering, SOFT X rays

Abstract

Charge density waves (CDWs) have been observed in nearly all families of copper-oxide superconductors. But the behavior of these phases across different families has been perplexing. In La-based cuprates, the CDW wavevector is an increasing function of doping, exhibiting the so-called Yamada behavior, while in Y- and Bi-based materials the behavior is the opposite. Here, we report a combined resonant soft X-ray scattering (RSXS) and neutron scattering study of charge and spin density waves in isotopically enriched La1.8-x Eu0.2SrxCuO4 over a range of doping 0.07 = x = 0.20. We find that the CDW amplitude is temperature independent and develops well above experimentally accessible temperatures. Further, the CDW wavevector shows a nonmonotonic temperature dependence, exhibiting Yamada behavior at low temperature with a sudden change occurring near the spin ordering temperature. We describe these observations using a Landau-Ginzburg theory for an incommensurate CDW in a metallic system with a finite charge compressibility and spin-CDW coupling. Extrapolating to high temperature, where the CDW amplitude is small and spin order is absent, our analysis predicts a decreasing wavevector with doping, similar to Y and Bi cuprates. Our study suggests that CDW order in all families of cuprates forms by a common mechanism. [ABSTRACT FROM AUTHOR]

Published

2022

38. Advances in Analysis of Microcalorimeter Gamma-Ray Spectra

Author

Becker, Daniel T., primary, Alpert, Bradley K., additional, Bennett, Douglas A., additional, Croce, Mark P., additional, Fowler, Joseph W., additional, Gard, Johnathon D., additional, Hoover, Andrew S., additional, Joe, Young Il, additional, Koehler, Katrina E., additional, Mates, John A. B., additional, O'Neil, Galen C., additional, Rabin, Michael W., additional, Reintsema, Carl D., additional, Schmidt, Daniel R., additional, Swetz, Daniel S., additional, Szypryt, Paul, additional, Vale, Leila R., additional, Wessels, Abigail L., additional, and Ullom, Joel N., additional

Published

2019

39. Optimization of Time- and Code-Division-Multiplexed Readout for Athena X-IFU

Author

Doriese, W. Bertrand, primary, Bandler, Simon R., additional, Chaudhuri, Saptarshi, additional, Dawson, Carl S., additional, Denison, Edward V., additional, Duff, Shannon M., additional, Durkin, Malcolm, additional, FitzGerald, Connor T., additional, Fowler, Joseph W., additional, Gard, Johnathon D., additional, Hilton, Gene C., additional, Irwin, Kent D., additional, Joe, Young Il, additional, Morgan, Kelsey M., additional, O'Neil, Galen C., additional, Pappas, Christine G., additional, Reintsema, Carl D., additional, Rudman, David A., additional, Smith, Stephen James, additional, Stevens, Robert W., additional, Swetz, Daniel S., additional, Szypryt, Paul, additional, Ullom, Joel N., additional, Vale, Leila R., additional, Weber, Joel C., additional, and Young, Betty A., additional

Published

2019

40. Demonstration of Athena X-IFU Compatible 40-Row Time-Division-Multiplexed Readout

Author

Durkin, Malcolm, primary, Adams, Joseph S., additional, Bandler, Simon R., additional, Chervenak, James A., additional, Chaudhuri, Saptarshi, additional, Dawson, Carl S., additional, Denison, Edward V., additional, Doriese, William B., additional, Duff, Shannon M., additional, Finkbeiner, Fred M., additional, FitzGerald, Connor T., additional, Fowler, Joseph W., additional, Gard, Johnathon D., additional, Hilton, Gene C., additional, Irwin, Kent D., additional, Joe, Young Il, additional, Kelley, Richard L., additional, Kilbourne, Caroline A., additional, Miniussi, Antoine R., additional, Morgan, Kelsey M., additional, O'Neil, Galen C., additional, Pappas, Christine G., additional, Porter, Frederick S., additional, Reintsema, Carl D., additional, Rudman, David A., additional, Sakai, Kazuhiro, additional, Smith, Stephen J., additional, Stevens, Robert W., additional, Swetz, Daniel S., additional, Szypryt, Paul, additional, Ullom, Joel N., additional, Vale, Leila R., additional, Wakeham, Nicholas A., additional, Weber, Joel C., additional, and Young, Betty A., additional

Published

2019

41. Wide-band parametric amplifier readout and resolution of optical microwave kinetic inductance detectors

Author

Zobrist, Nicholas, primary, Eom, Byeong Ho, additional, Day, Peter, additional, Mazin, Benjamin A., additional, Meeker, Seth R., additional, Bumble, Bruce, additional, LeDuc, Henry G., additional, Coiffard, Grégoire, additional, Szypryt, Paul, additional, Fruitwala, Neelay, additional, Lipartito, Isabel, additional, and Bockstiegel, Clint, additional

Published

2019

42. Microwave kinetic inductance detectors for visible to near infrared astronomy (Conference Presentation)

Author

Coiffard, Grégoire, primary, Mazin, Benjamin A., additional, Daal, Miguel, additional, Zobrist, Nicholas, additional, and Szypryt, Paul, additional

Published

2018

43. MEC: the MKID exoplanet camera for high contrast astronomy at Subaru (Conference Presentation)

Author

Walter, Alex, primary, Mazin, Benjamin A., additional, Bockstiegel, Clint, additional, Fruitwala, Neelay, additional, Szypryt, Paul, additional, Lipartito, Isabel, additional, Meeker, Seth, additional, Zobrist, Nicholas, additional, Collura, Giulia, additional, Coiffard, Grégoire, additional, Strader, Paschal, additional, Guyon, Olivier, additional, Lozi, Julien, additional, and Jovanovic, Nemanja, additional

Published

2018

44. DARKNESS: A Microwave Kinetic Inductance Detector Integral Field Spectrograph for High-contrast Astronomy

Author

Meeker, Seth R., primary, Mazin, Benjamin A., additional, Walter, Alex B., additional, Strader, Paschal, additional, Fruitwala, Neelay, additional, Bockstiegel, Clint, additional, Szypryt, Paul, additional, Ulbricht, Gerhard, additional, Coiffard, Grégoire, additional, Bumble, Bruce, additional, Cancelo, Gustavo, additional, Zmuda, Ted, additional, Treptow, Ken, additional, Wilcer, Neal, additional, Collura, Giulia, additional, Dodkins, Rupert, additional, Lipartito, Isabel, additional, Zobrist, Nicholas, additional, Bottom, Michael, additional, Shelton, J. Chris, additional, Mawet, Dimitri, additional, van Eyken, Julian C., additional, Vasisht, Gautam, additional, and Serabyn, Eugene, additional

Published

2018

45. MEC: the MKID exoplanet camera for high contrast astronomy at Subaru (Conference Presentation)

Author

Evans, Christipher J., Simard, Luc, Takami, Hideki, Walter, Alex, Mazin, Benjamin A., Bockstiegel, Clint, Fruitwala, Neelay, Szypryt, Paul, Lipartito, Isabel, Meeker, Seth, Zobrist, Nicholas, Collura, Giulia, Coiffard, Grégoire, Strader, Paschal, Guyon, Olivier, Lozi, Julien, Jovanovic, Nemanja, Evans, Christipher J., Simard, Luc, Takami, Hideki, Walter, Alex, Mazin, Benjamin A., Bockstiegel, Clint, Fruitwala, Neelay, Szypryt, Paul, Lipartito, Isabel, Meeker, Seth, Zobrist, Nicholas, Collura, Giulia, Coiffard, Grégoire, Strader, Paschal, Guyon, Olivier, Lozi, Julien, and Jovanovic, Nemanja

Abstract

Direct Imaging of exoplanets is one of the most technically difficult techniques used to study exoplanets, but holds immense promise for not just detecting but characterizing planets around the nearest stars. Ambitious instruments at the world’s largest telescopes have been built to carry out this science: the Gemini Planet Imager (GPI), SPHERE at VLT, SCExAO at Subaru, and the P1640 and Stellar Double Coronagraph (SDC) at Palomar. These instruments share a common archetype consisting of an extreme AO system feeding a coronagraph for on-axis stellar light rejection followed by a focal plane Integral Field Spectrograph (IFS). They are currently limited by uncontrolled scattered and diffracted light which produces a coherent speckle halo in the image plane. A number of differential imaging schemes exist to mitigate these issues resulting in star-planet contrast ratios as deep as ~10^-6 at low angular separations. Surpassing this contrast limit requires high speed active speckle nullification from a focal plane wavefront sensor (FPWS) and new processing techniques. MEC, the Microwave Kinetic Inductance Detector (MKID) Exoplanet Camera, is a J-band IFS module behind Subaru Telescope’s SCExAO system. MEC is capable of producing an image cube several thousand times a second without the read noise that dominates conventional high speed IFUs. This enables it to integrate with SCExAO as an extremely fast FPWS while eliminating non-common path aberrations by doubling as a science camera. Key science objectives can be further explored if longer wavelengths (H and K band) are simultaneously sent to CHARIS for high resolution spectroscopy. MEC, to be commissioned at Subaru in early 2018, is the second MKID IFS for high contrast imaging following DARKNESS’ debut at Palomar in July 2016. MEC will follow up on young planets and debris disks discovered in the SEEDS survey or by Project 1640 as well as discover self-luminous massive planets. The increased sensitivity, combined with t

Published

2018

46. Highly multiplexible thermal kinetic inductance detectors for x-ray imaging spectroscopy

Author

Ulbricht, Gerhard, primary, Mazin, Benjamin A., additional, Szypryt, Paul, additional, Walter, Alex B., additional, Bockstiegel, Clint, additional, and Bumble, Bruce, additional

Published

2015

47. SUPERCONDUCTING X-RAY SENSORS FOR TOMOGRAPHY OF MICROELECTRONICS.

Author

Fowler, Joseph W., Levine, Zachary H., Szypryt, Paul, and Swetz, Daniel S.

Subjects

*MICROELECTRONICS, *X-rays, *SCIENTIFIC apparatus & instruments, *SUPERCONDUCTING quantum interference devices, *X-ray spectrometers, *FUEL cycle

Abstract

The article focuses on the application of superconducting x-ray detectors in tomographic analysis of microelectronics. It discusses the challenges in analyzing the internal structure and composition of integrated circuits (ICs); the use of superconducting transition-edge sensors (TES) to enhance the efficiency and accuracy of x-ray imaging; enabling non-destructive tomography of ICs; and also explores future directions.

Published

2023

48. Quantum Information Science and Technology for Nuclear Physics. Input into U.S. Long-Range Planning, 2023

Author

Beck, Douglas, Carlson, Joseph, Davoudi, Zohreh, Formaggio, Joseph, Quaglioni, Sofia, Savage, Martin, Barata, Joao, Bhattacharya, Tanmoy, Bishof, Michael, Cloet, Ian, Delgado, Andrea, Demarco, Michael, Fink, Caleb, Florio, Adrien, Francois, Marianne, Grabowska, Dorota, Hoogerheide, Shannon, Huang, Mengyao, Ikeda, Kazuki, Illa, Marc, Joo, Kyungseon, Kharzeev, Dmitri, Kowalski, Karol, Lai, Wai Kin, Leach, Kyle, Loer, Ben, Low, Ian, Martin, Joshua, Moore, David, Mehen, Thomas, Mueller, Niklas, Mulligan, James, Mumm, Pieter, Pederiva, Francesco, Pisarski, Rob, Ploskon, Mateusz, Reddy, Sanjay, Rupak, Gautam, Singh, Hersh, Singh, Maninder, Stetcu, Ionel, Stryker, Jesse, Szypryt, Paul, Valgushev, Semeon, Vandevender, Brent, Watkins, Samuel, Wilson, Christopher, Yao, Xiaojun, Afanasev, Andrei, Balantekin, Akif Baha, Baroni, Alessandro, Bunker, Raymond, Chakraborty, Bipasha, Chernyshev, Ivan, Cirigliano, Vincenzo, Clark, Benjamin, Dhiman, Shashi Kumar, Du, Weijie, Dutta, Dipangkar, Edwards, Robert, Flores, Abraham, Galindo-Uribarri, Alfredo, Garcia Ruiz, Ronald Fernando, Gueorguiev, Vesselin, Guo, Fanqing, Hansen, Erin, Hernandez, Hector, Koichi Hattori, Hauke, Philipp, Hjorth-Jensen, Morten, Jankowski, Keith, Johnson, Calvin, Lacroix, Denis, Lee, Dean, Lin, Huey-Wen, Liu, Xiaohui, Llanes-Estrada, Felipe J., Looney, John, Lukin, Misha, Mercenne, Alexis, Miller, Jeff, Mottola, Emil, Mueller, Berndt, Nachman, Benjamin, Negele, John, Orrell, John, Patwardhan, Amol, Phillips, Daniel, Poole, Stephen, Qualters, Irene, Rumore, Mike, Schaefer, Thomas, Scott, Jeremy, Singh, Rajeev, Vary, James, Galvez-Viruet, Juan-Jose, Wendt, Kyle, Xing, Hongxi, Yang, Liang, Young, Glenn, and Zhao, Fanyi

Subjects

Nuclear Theory (nucl-th), Quantum Physics, Nuclear Theory, FOS: Physical sciences, Nuclear Experiment (nucl-ex), Quantum Physics (quant-ph), Nuclear Experiment

Abstract

In preparation for the 2023 NSAC Long Range Plan (LRP), members of the Nuclear Science community gathered to discuss the current state of, and plans for further leveraging opportunities in, QIST in NP research at the Quantum Information Science for U.S. Nuclear Physics Long Range Planning workshop, held in Santa Fe, New Mexico on January 31 - February 1, 2023. The workshop included 45 in-person participants and 53 remote attendees. The outcome of the workshop identified strategic plans and requirements for the next 5-10 years to advance quantum sensing and quantum simulations within NP, and to develop a diverse quantum-ready workforce. The plans include resolutions endorsed by the participants to address the compelling scientific opportunities at the intersections of NP and QIST. These endorsements are aligned with similar affirmations by the LRP Computational Nuclear Physics and AI/ML Workshop, the Nuclear Structure, Reactions, and Astrophysics LRP Town Hall, and the Fundamental Symmetries, Neutrons, and Neutrinos LRP Town Hall communities., A white paper for the 2023 nuclear physics long-range planning activity, emerging from the workshop "Quantum Information Science for U.S. Nuclear Physics Long Range Planning'', held in Santa Fe, New Mexico on January 31 - February 1, 2023. 26 pages with 7 figures