| Name |
Title |
Category |
| franz von Feilitzsch (Technical University of Munich, Germany) |
lowtemperature detectors 30 years ago |
K:0-1 |
| Romain Maisonobe (Institut de Physique NuclAaire de Lyon, France) |
Status and Prospects of the EDELWEISS-III Direct WIMP Search Experiment |
K:O-37 |
| Yuji Takeuchi (University of Tsukuba, Japan) |
Development of STJ with FD-SOI cryogenic amplifier as a far-infrared single photon detector for COBAND experiment |
A:2293144 |
| Alessandro Monfardini (CNRS, France) |
Th sub-gap KID (SKID) |
A:O-5 |
| Giulia Collura (University of California, Santa Barbara, United States) |
Moving Optical MKIDs to Lower Temperature: Preliminary Characterization of Hafnium Resonators |
A:O-6 |
| Fabien Defrance (California Institute of Technology, United States) |
Low-Loss, Low-Noise, Crystalline Silicon Dielectric for Superconducting Microstriplines & Kinetic Inductance Detector Capacitors |
A:O-11 |
| Bradley Johnson (Columbia University, United States) |
Development of Polarization Sensitive Multi-Chroic MKIDs for CMB Studies |
A:O-21 |
| Ilari Maasilta (University of Jyvaskyla, Finland) |
Noise equivalent power and energy resolution of transition-edge sensors with |
A:O-26 |
| Kaori Hattori (AIST, Japan) |
Characterization of optical transition-edge sensors |
A:O-31 |
| Daikang Yan (Northwestern University, United States) |
Eliminating Anomalous Low Energy Tails in Hard X-ray TES Microcalorimeters Using Electroplated Bismuth |
A:O-32 |
| Samantha Stever (Institut d'Astrophysique Spatiale, France) |
Toward a physical model for energy deposition via cosmic rays in sub-K bolometric detectors |
A:O-33 |
| Qingyuan Zhao (Massachusetts Institute of Technology, United States) |
A distributed superconducting nanowire single photon detector for imaging |
A:O-44 |
| Beldi Samir (Observatoire de Paris, France) |
esign of Near Infrared and Visible Kinetic Inductance Detectors using MIM Capacitors |
A:PA 26 |
| Andrea Giachero (University & NFN Milano-Bicocca, Italy) |
Development of Thermal Kinetic Inductance Detectors suitable for X-ray spectroscopy |
A:PA-1 |
| Qing Yang Tang (Kavli Institute, University of Chicago, United States) |
Fabrication of antenna-coupled KID array for Cosmic Microwave Background detection |
A:PA-2 |
| Yen-Yung Chang (California Institute of Technology, United States) |
Development of a Massive, Highly Multiplexible, Phonon-Mediated Particle Detector using Kinetic Inductance Detector |
A:PE-13 |
| Pieter de Visser (SRON, Netherlands) |
Coherent excited states in superconductors due to a microwave field - microscopic perspective on microwave nonlinearity |
A:PA-14 |
| Edward Schroeder (Arizona State University, United States) |
Operation of a superconducting nanowire in two detection modes: KID and SPD |
A:PA-15 |
| George Che (Arizona State University, United States) |
A Superconducting Phase Shifter and On-Chip Fourier Transform Spectrometer for W-Band Astronomy |
A:PA-16 |
| Sebastian Haehnle (SRON, Netherlands) |
A broadband antenna for on-chip integrated spectrometers at 300-1000 GHz |
A:PA-17 |
| Marco Faverzani (University I NFN Milano-Bicocca, Italy) |
Electron-phonon coupling in Ti/TiN MKIDs multilayer microresonator |
A:PA-20 |
| Shibo Shu (Institut de Radioastronomie MillimAtrique, France) |
Prototype High Angular Resolution LEKIDs for NIKA2 |
A:PA-21 |
| Alicia Gomez (Centro de Astrobiologia (INTA-CSIC), Spain) |
Polarization filter for microstrip lumped-element kinetic inductance detectors |
A:PA-22 |
| Amber Hornsby (Cardiff University, United Kingdom) |
Optimisation of an antenna-coupled LEKID for future ground-based CMB experiments |
A:PA-24 |
| Agnes Dominjon (National Astronomical Observatory of Japan, Japan) |
Investigation of Single Crystal Niobium for Microwave Kinetic Inductance Detectors |
A:PA-25 |
| Hiroki Kutsuma (Tohoku University, Japan) |
Optimization of geomagnetic shielding for MKIDs mounted on rotating cryostat |
A:PA-29 |
| Carlos Pobes (ICMA, Material Science Institute of Aragon. (CSIC - University of Zaragoza), Spain) |
Comparison of different Mo/Au TES designs for radiation detectors |
A:PA-37 |
| Francois Aubin (University of Minnesota, United States) |
Design of the EBEX-IDS Detectors |
A:PA-43 |
| Felix Jaeckel (University of Wisconsin, United States) |
Does membrane strain impact the TES transition surface? |
A:PA-44 |
| Keisuke Nakamura (Japan Atomic Energy Agency, Japan) |
Spectroscopic measurements of L X-rays with a TES microcalorimeter for a non-destructive assay of transuranium elements |
A:PA-46 |
| Yu Zhou (University of Wisconsin, United States) |
Mapping Transition-edge Sensor Temperature Sensitivity and Current Sensitivity Surface as a Function of Current, Magnetic Field and Temperature with IV curve and Complex Impedance Measurement |
A:PA-49 |
| Jordan Wheeler (University of Colorado Boulder, United States) |
SuperSpec: mm-Wave On-Chip Spectrometer |
A:PA-58 |
| Evgenii Novoselov (Chalmers University of Technology, Sweden) |
MgB2 hot-electron bolometer mixers for sub-mm wave astronomy |
A:PA-59 |
| Elizabeth Mondragon (Technical University of Munich, Germany) |
NTLE cryogenic light detectors with planar electrode geometry |
A:PA-66 |
| Akira Kawakami (NICT, Japan) |
Design and fabrication of mid-infrared superconducting hot-electron bolometers |
A:PA-67 |
| Stephen Kuenstner (Kavli Institute, Stanford University, United States) |
The DM Radio Pathfinder experiment: searching for dark matter from 500 peV to 50 neV |
A:PA-73 |
| Sophie Bounissou (CEA Paris/Saclay, France) |
Electromagnetic simulations of newly designed semiconductor bolometers for submillimeter observations |
A:PA-75 |
| Shota Yoshimoto (Kyushu University, Japan) |
Development of a Dielectric Microcalorimeter with Quantum Ferroelectric Material |
A:PA-76 |
| Roberto Cristiano (CNR - SPIN, Italy) |
Statistical approach to the investigation of dark counts in SNSPDs. |
A:PA-83 |
| Xavier FranAois NAVICK (CEA, France) |
NTD-Ge production in the LUMINEU experiment using cryogenic detectors for Rare Event searches |
A:PA-85 |
| Joseph Fowler (NIST, United States) |
Multiplexing TES Microcalorimeters in the High-Speed Limit |
B:O-55 |
| Kent Irwin (Stanford University, United States) |
Advanced Time Division, Code Division and Microwave SQUID Multiplexers |
B:O-58 |
| Damien PRELE (APC (CNRS/Univ. Paris Diderot), France) |
SiGe ASIC Developments for SQUID/TES Readout |
B:O-59 |
| Saptarshi Chaudhuri (Stanford University, United States) |
Traveling-wave, lumped-element kinetic inductance parametric amplifier for detector readout |
B:O-61 |
| Kyungmin Lee (Korea University, Korea South) |
Development of cross-talk suppression algorithm for MKID readout |
B:PB20 |
| Junya Suzuki (High Energy Accelerator Research Organization, Japan) |
Development of a data acquisition system for kinetic inductance detectors: wide dynamic range and high sampling rate for astronomical observation |
B:PB-1 |
| Masahiro Tsujimoto (ISAS/JAXA, Japan) |
In-Orbit Performance of Digital Electronics of X-ray micro-calorimeter onboard Hitomi |
B:PB-2 |
| Roland den Hartog (SRON, Netherlands) |
Crosstalk in an FDM laboratory set-up and the Athena X-IFU science performance |
B:PB-3 |
| Bradley Dober (National Institute of Standards and Technology, United States) |
Toward a 2000-channel Microwave SQUID Multiplexed Unit for Transition-Edge Sensor Bolometer Arrays |
B:PB-5 |
| Yuki Nakashima (ISAS/JAXA, Japan) |
Development of Microwave Multiplexer Readout System Based on SQUIDs Directly Coupled to Resonators for TES X-ray Microcalorimeter |
B:PB-11 |
| Akihiro Kushino (Kurume University, Japan) |
Development of semi-rigid superconducting coaxial cables with normal-conductor-clad center conductor |
B:PB-14 |
| Xavierde la Broise (CEA/IRFU, Saclay, France, France) |
Superconducting multilayer high density flexible PCBfor very high thermal resistance interconnections |
B:PB-15 |
| Makoto NAGAI (National Astronomical Observatory of Japan, Japan) |
Acquisition System of Nobeyama MKID Camera |
B:PB-16 |
| Carl Dawson (Stanford University, United States) |
Automated Measurements for the Characterization of SQUID-Based Time-Division Multiplexing Chips |
B:PB-19 |
| Charles Titus (Stanford University, United States) |
Error correcting codes for code division multiplexed TES detectors |
B:PB-22 |
| Akihiro Kushino (Kurume University, Japan) |
Thermal conductance and high frequency properties of cryogenic normal or superconucting semi-rigid coaxial cables in a range of 1 and 8 K |
B:PB-26 |
| Joel Weber (NIST, United States) |
Developing Cryotron Switches for TES Array Multiplexing |
B:PB-30 |
| Kazuhiro Sakai (NASA/Goddard Space Flight Center, United States) |
Study of Dissipative Losses in AC-Biased Mo/Au Bilayer Transition-Edge Sensors |
B:PA-40 |
| Natalie DeNigris (NASA/Goddard Space Flight Center, United States) |
Fabrication of Flexible Superconducting Wiring with High Current Carrying Capacity Indium Interconnects |
C:354 |
| Raul Hennings Yeomans (University of California, Berkeley, United States) |
Low Tc TES for a Cuore Upgrade with Particle Identification (CUPID) |
C:00428-000-00 |
| Abdelkader Aliane (CEA tech LETI, France) |
Superconducting Ti/TiN thin films for mm wave absorption |
C:O-64 |
| Gregoire Coiffard (UCSB, United States) |
Parallel plate resonators for kinetic inductance detectors |
C:O-65 |
| Thomas Stevenson (NASA/Goddard Space Flight Center, United States) |
Magnetic Calorimeter Arrays with High Sensor Inductance and Dense Wiring |
C:O-77 |
| Ari Brown (NASA/Goddard Space Flight Center, United States) |
Fabrication of Ultrasensitive Transition Edge Sensor Bolometric Detectors for HIRMES |
C:PC18 |
| Ari Brown (NASA/Goddard Space Flight Center, United States) |
The Path to Achieving High Optical Coupling for HIRMES |
C:PC19 |
| RUSLAN HUMMATOV (University of New Mexico, United States) |
Fabrication of Absorbers with Dry Film Photoresist for Gamma Ray Spectroscopy with Metallic Magnetic Calorimeters |
C:PC 17 |
| johannes GOUPY (Institut Neel, France) |
Microfabrication developments for future instruments using KID detectors |
C:PC-01 |
| Aritoki Suzuki (Lawrence Berkeley National Laboratory, United States) |
Commercialization of micro-fabrication of antenna-coupled Transition Edge Sensor bolometer detectors for studies of the Cosmic Microwave Background |
C:PC-6 |
| Benjamin Westbrook (UC Berkeley, United States) |
The POLARBEAR-2 and Simons Array Focal Plane Fabrication Status |
C:PC-7 |
| Shohei Ezaki (National Astronomical Observatory of Japan, Japan) |
Fabrication and Characterization of (100) Silicon Membranes for a Multi-beam Superconducting Heterodyne Receiver |
C:PC-12 |
| Faustin Carter (Argonne National Laboratory, United States) |
Tuning SPT-3G transition-edge-sensor electrical properties with a trilayer Au-Ti-Au thin-film stack |
C:PC-16 |
| Marcel Ridder (SRON, Netherlands) |
Fabrication of a uniform large scale array of X-ray microcalorimeters for the X-IFU instrument on Athena |
C:PC-22 |
| Angiola Orlando (INFN Milano Bicocca, Italy) |
Microfabrication of transition-edge sensor arrays of microcalorimeters with Ho-163 for direct neutrino mass measurements with HOLMES |
C:PC-25 |
| Chang Lee (Institute for Basic Science, Korea South) |
Vibration measurement and mitigation for cryogen-free dilution refrigerators |
D:O-80 |
| Fabien Defrance (California Institute of Technology, United States) |
Stacked Wafer Gradient Index Silicon Optics with Integral Antireflection Layers |
D:PD-5 |
| Keigo Tanaka (Kanazawa University, Japan) |
Improvements of our TES microcalorimeter operation system with a compact adiabatic demagnetization refrigerator cryostat |
D:PD-9 |
| Sebastian Haehnle (SRON, Netherlands) |
Large Angle Optical Access in a sub-Kelvin Cryostat |
D:PD-10 |
| Muad Ghaith (Queen's University, Canada) |
Feasibility Study for an IR-LED Based Calibration System for SuperCDMS Detectors |
D:PD-11 |
| Takashi Hasebe (ISAS/JAXA, Japan) |
Concept Study of High Frequency Telescope for LiteBIRD |
D:PD-13 |
| Charles Hill (University of California, Berkeley, United States) |
Design and development of a cryogenic continuously-rotating achromatic half-wave plate for CMB polarization modulation on POLARBEAR-2 |
D:PD-16 |
| Romain Maisonobe (Institut de Physique Nucléaire de Lyon, France) |
Experimental study and modeling of cryogenic detectors decoupling within dry cryostat |
D:PD-18 |
| Andrea Catalano (LPSC - CNRS, France) |
The NIKA2 instrument at 30m IRAM telescope: performance and first results |
E:O-15 |
| FranAois Pajot (IRAP/CNRS, France) |
The Athena X-ray Integral Field Unit (X-IFU) |
E:O-17 |
| Fedja Kadribasic (Texas A&M University, United States) |
Using Defect Creation for Directional Sensitivity and Dark Matter Signal Discrimination in Phonon-Mediated Detectors |
E:O-35 |
| Hiroyuki Sekiya (University of Tokyo, Japan) |
XMASS A Dark Matter Search Experiment with Liquid Xenon |
E:O-38 |
| Yong-Hamb Kim (Institute for Basic Science, Korea South) |
Low temperature detectors for neutrinoless double beta decay experiments |
E:O-39 |
| Shugo Oguri (RIKEN, Japan) |
Search for hidden photon cold dark matter using radio telescopes |
E:O-40 |
| George Seidel (Brown University, United States) |
Enhanced Calorimetry Using Helium Evaporation and Field Ionization |
E:O-41 |
| Angelo Nucciotti (Dipartimento di Fisica, University ilano-Bicocca / INFN - Milano Bicocca, Italy) |
Status of the HOLMES experiment to directly measure the electron neutrino mass |
E:O-42 |
| Kunihiro INOMATA (AIST, Japan) |
Single Microwave-Photon Detector based on Superconducting Quantum Circuits |
E:O-49 |
| Aritoki Suzuki (Lawrence Berkeley National Laboratory, United States) |
The LiteBIRD Mission - Sub-Kelvin Instrument |
E:O-72 |
| Edoardo Cucchetti (CNRS IRAP, France) |
Multi-parameter Gain Drift Correction Of X-Ray Micro-Calorimeters For The X-Ray Integral Field Unit |
E:PE 49 |
| Jeffrey Filippini (University of Illinois, Urbana-Champaign, United States) |
SPIDER: CMB Polarimetry from the Edge of Space |
E:PE-4 |
| Brian Koopman (Cornell University, United States) |
Advanced ACTPol Low Frequency Array: Readout and Characterization of Prototype 27 and 39 GHz TESes |
E:PE-5 |
| Wendeline Everett (University of Colorado at Boulder, Center for Astrophysics and Space Astronomy, United States) |
Design and Performance of the SPT3G First-year Focal Plane |
E:PE-10 |
| Davide Vaccaro (INFN Pisa, Italy) |
Critical temperature tuning of Titanium thin films for CMB detectors on the SWIPE/LSPE experiment |
E:PE-12 |
| Karoline Schaeffner (GSSI - Gran Sasso Science Institute, Italy) |
A NaI-based cryogenic scintillating calorimeter: status and results from the first COSINUS prototype detectors |
E:PE-14 |
| Fedja Kadribasic (Texas A&M University, United States) |
Defect creation to discriminate dark matter signal in phonon-mediated detectors |
E:PE-16 |
| michelle dolinski (Drexel University, United States) |
Solid xenon bolometers for anti-correlation studies |
E:PE-17 |
| Katrina Koehler (Los Alamos National Laboratory, United States) |
A Systematic Study of the Theoretical Calorimetric Electron Capture Spectrum |
E:PE-19 |
| Andrei Puiu (University & NFN Milano-Bicocca, Italy) |
Updates on the Transition Edge Sensors and multiplexed readout for HOLMES |
E:PE-20 |
| Katrina Koehler (Los Alamos National Laboratory, United States) |
193Pt Electron Capture Spectra with Microcalorimeters |
E:PE-21 |
| Saptarshi Chaudhuri (Stanford University, United States) |
Quantum-Limited Scan Strategies: Fundamental Limits on Axion and Hidden Photon Detection |
E:PE-24 |
| Johannes Rothe (Max-Planck-Institute for hysik, Germany) |
TES-based light detectors for the CRESST direct dark matter search |
E:PE-25 |
| Yosuke Kida (Okayama University, Japan) |
Development of Lumped Element Kinetic Inductance Detectors for Light Dark Matter Searches using Liquid Helium |
E:PE-26 |
| Giovanni Gallucci (INFN - Sezione di Genova, Italy) |
163Ho distillation and implantation for Holmes experiment |
E:PE-28 |
| Kazuhisa Mitsuda (ISAS/JAXA, Japan) |
Sensitivity of TES Microcalorimeter Arrays for Solar-Axion Line Emission |
E:PE-30 |
| Hyon-Suk Jo (Institute for Basic Science, Korea South) |
Status of the AMoRE experiment searching for neutrinoless double beta decay using low-temperature detectors |
E:PE-31 |
| Ben Flatman (Cardiff University, School of Physics & Astronomy, United Kingdom) |
An on-chip filter bank spectrometer based on Transition Edge Sensors for meteorology and climatology |
E:PA-34 |
| Giuseppe Cataldo (NASA/Goddard Space Flight Center, United States) |
Second-generation design of Micro-Spec: a medium-resolution, submillimeter-wavelength spectrometer-on-a-chip |
E:PE-41 |
| Philippe Peille (Centre National d'Etudes Spatiales, France) |
The performance of the Athena X-ray Integral Field Unit at very high count rates |
E:PE-45 |
| David Goldfinger (Kavli Institute, Massachusetts Institute of Technology, United States) |
Detector Calibration of the Micro-X Sounding Rocket Telescope |
E:PE-48 |
| Matteo D Andrea (INAF/IAPS Roma, Italy) |
The Cryogenic AntiCoincidencedetector for ATHENA X-IFU: characterization of the last generation single pixel prototype (AC-S8) |
E:PE-52 |
| Matteo D Andrea (INAF/IAPS Roma, Italy) |
The Cryogenic AntiCoincidencedetector for ATHENA X-IFU: improvement of the test setup towards the Demonstration Model |
E:PE-53 |
| Michael Audley (SRON, Netherlands) |
Optical Response of TES Bolometer Arrays for SAFARI |
E:PE-54 |
| Stephen Smith (NASA/Goddard Space Flight Center, United States) |
Design and optimization of multi-pixel transition-edge sensors for X-ray astronomy applications |
E:PE-59 |
| Marco Barbera (University of Palermo,Italy) |
Characterization Tests of Thermal Filters for the ATHENA mission X-IFU Low Temperature Detector |
E:PE-62 |
| Martin Loidl (CEA / LIST / LNHB, France) |
MetroBeta: Beta Spectrometry with Metallic Magnetic Calorimeters in the Framework of the European Program of Ionizing Radiation Metrology |
E:PE-63 |
| Jin Li (Institute for Basic Science, Korea South) |
A model on heat signal of crystal detector at low temperature |
E:PA-64 |
| Dong Liu (Purple Mountain Observatory, China) |
IF bandwidth of NbN Superconducting Tunneling Junction Mixers |
E:PA-65 |
| Joseph Fowler (NIST, United States) |
In Search of a Statistically Optimal, Nonlinear Pulse-Height Estimator for TES Microcalorimeter Signals |
E:PE-66 |
| Ilari Maasilta (University of Jyvaskyla, Finland) |
Recent advances in broadband, ultrahigh resolution spectroscopy of particle |
E:PE-68 |
| Santwana Dubey (Johannes Gutenberg University, Mainz, Germany, Germany) |
Application of Calorimetric Low-Temperature Detectors for the Investigation of Nuclear Charge Distributions of Fission Fragments |
E:PE-70 |
| Riham Mariam (CEA saclay, France) |
Total efficiency calibration of a MMC detector for photon spectrometry below 100 keV |
E:PE-74 |
| Ken Suzuki (Stefan Meyer Institute for Subatomic Physics, Austrian Academy of Sciences, Austria) |
Development of a cryogenic x-ray detector and an application for kaon mass measurement |
E:PE-76 |
| Charles Titus (SRON, United States) |
TES x-ray detectors for high efficiency spectroscopy of hemoglobin and other proteins |
E:PE-80 |
| Shinji Okada (RIKEN, Japan) |
Transition-edge-sensor microcalorimeters for mass spectrometric identification of neutral molecules |
E:PE-84 |
