Publications

The implementation of cryoHEMTs has already resulted in the publications:

• – Mesoscopic Physics:
• Quantum limit of heat flow across a single electronic channel
  Science 342, 601 (2013)
• Hong-Ou-Mandel experiment for temporal investigation of single electron fractionalization
  Nature Communications 6, 6854 (2015)
• Primary thermometry triad at 6 mK in mesoscopic circuits
  Nature Communications 7, 12908 (2016)
• Decoherence and relaxation of a single electron in a one-dimensional conductor
  Physical Review B. 94, 115311 (2016)
• Two-particle interferometry in quantum Hall edge channels
  Physica Status Solidi (B). 254, 3, pn/a-n/a. 13p. (2017)
• Heat Coulomb blockade of one ballistic channel
  Nature Physics 14(2), 145-148 (2018)
• Microwave photons emitted by fractionally charged quasiparticles
  Nature Communications 10, 1708 (2019)
• Shot noise measurement for tunnel junctions using a homemade cryogenic amplifier at dilution refrigerator temperatures
  Acta Physica Sinica, 68 (7) 070702 (2019)
• Quantum tomography of electrical currents
  Nature Communications 10, 3379 (2019)
• Fractional statistics in anyon collisions
  Science 368, 6487, 173-177 (2020)
• Cross-Correlation Investigation of Anyon Statistics in the ν=1/3 and 2/5 Fractional Quantum Hall States
  Phys. Rev. X 13, 011030 (2023)
• Comparing Fractional Quantum Hall Laughlin and Jain Topological Orders with the Anyon Collider
  Phys. Rev. X 13, 011031 (2023)
• Quasiparticle Andreev scattering in the ν=1/3 fractional quantum Hall regime
  Nature Communications 14, 514 (2023)

• – Superconductor circuits:
• Supercurrent noise in a phase-biased superconductor-normal ring in thermal equilibrium
  Phys. Rev. Research 6, L022023 (2024)

• – Dark Matter search:
• An HEMT-Based Cryogenic Charge Amplifier for Sub-kelvin Semiconductor Radiation Detectors
  Journal of Low Temperature Physics 184, 1/2, p505 (2016)
• A HEMT-Based Cryogenic Charge Amplifier with sub-100 eVee Ionization Resolution for Massive Semiconductor Dark Matter Detectors
  Nucl. Instrum. Methods Phys. Res., Sect. A 940, pp 181-184 (2019)
• Low-Noise HEMTs for Coherent Elastic Neutrino Scattering and Low-Mass Dark Matter Cryogenic Semiconductor Detectors
  J Low Temp Phys 199, 798 (2020)
• HEMT-Based 1 K Front-End Electronics for the Heat and Ionization Ge CryoCube of the Future Ricochet CEνNS Experiment
  J Low Temp Phys 209, 570 (2022)
• First demonstration of 30 eVee ionization energy resolution with Ricochet germanium cryogenic bolometers
  Eur. Phys. J. C 84, 186 (2024)

• – Low temperature STM:
• Charge trapping and super-Poissonian noise centres in a cuprate superconductor
  Nature Physics, 14, 1183 (2018)
• Noisy defects in the high-TC superconductor Bi2Sr2CaCu2O8+x
  Nature Communications 10, 544 (2019)
• Atomic scale shot-noise using cryogenic MHz circuitry
  Review of Scientific Instruments 89, 093708 (2018)
• Amplifier for scanning tunneling microscopy at MHz frequencies
  Review of Scientific Instruments 89, 093709 (2018)
• Imaging doubled shot noise in a Josephson scanning tunneling microscope
  Phys. Rev. B 100, 104506 (2019)
• Atomic manipulation of the gap in Bi2Sr2CaCu2O8+x
  Science 367, 6473, 68 (Supplementary Materials) (2020)
• Imaging doubled shot noise in a Josephson scanning tunneling microscope
  Phys. Rev. B 100, 104506 (2019)
• Direct evidence for Cooper pairing without a spectral gap in a disordered superconductor above Tc
  Science 374, 608 (2021)
• Coherent and Incoherent Tunneling into Yu-Shiba-Rusinov States Revealed by Atomic Scale Shot-Noise Spectroscopy
  Phys. Rev. Lett. 128, 247001 (2022)

• – Low temperature nano-mechanical resonators:
• Improving the read-out of the resonance frequency of nanotube mechanical resonators
  Applied Physics Letters 113, 063104 (2018)
• Ultrasensitive displacement noise measurement of carbon nanotube mechanical resonators
  Nano Letters 18, 5324 (2018)
• Cooling and self-oscillation in a nanotube electromechanical resonator
  Nature Physics 16, 32 (2020)
• Nonlinear nanomechanical resonators approaching the quantum ground state
  Nature Physics (2023)

• – Low temperature detectors:
• Cryogenic ultra-low noise HEMT amplifiers board
  Nuclear Instruments & Methods In Physics Research Section A 787, pp 51-54 (2015)
• Cryogenic low noise and low dissipation multiplexing electronics, using HEMT plus SiGe ASICs, for the readout of high impedance sensors: New version
  Nuclear Instruments & Methods In Physics Research Section A 787, pp: 64-67 (2015)
• Toward large µ-calorimeters x-ray matrices based on metal-insulator sensors and HEMTs/SiGe cryo-electronics 
  Proceedings of the SPIE 2016, vol.9905, 99050S (2016) (for X-ray detection)
• High impedance TES with classical (cryogenic HEMTs) readout electronics: a new scheme toward large x-ray matrices
  Proc. SPIE 10699, Space Telescopes and Instrumentation 2018: Ultraviolet to Gamma Ray, 106995T (2018)

• – Device physics:
• Ultra-low noise high electron mobility transistors for high-impedance and low-frequency deep cryogenic readout electronics
  Applied Physics Letters 105, 1, 013504 (2014)
• Ultra-low noise HEMTs for high-impedance and low-frequency preamplifiers: realization and characterization from 4.2 K to 77 K
  Proceedings of IEEE 11th International Workshop On Low Temperature Electronics (WOLTE), pp21-24 (2014)
• First Measurement of the Intrinsic Noise of a HEMT at Sub-Kelvin Temperatures
  Journal of Low Temperature Physics 184, 1/2, p466 (2016)
• Ultra-low noise CryoHEMTs for cryogenic high-impedance readout electronics: Results and applications
  Proceedings of 13th IEEE International Conference on Solid-State and Integrated Circuit Technology (ICSICT): 342-345 Oct, (2016)

• – Application notes:
• High impedance low-temperature readout electronics with a RLC tank: simulation and experimental results