Calorimetry of a Quantum Phase Slip
E. Gümüs, D. Majidi, D. Nikolic, P. Raif, B. Karimi, J. T. Peltonen, E. Scheer, J. P. Pekola, H. Courtois, W. Belzig, and C. B. Winkelmann
arXiv: 2202.08726 (2022).
Protected transport in the epigraphene edge state
V. Prudkovskiy, Y. Hu, K. Zhang, Y. Hu, P. Ji, G. Nunn, J. Zhao, C. Shi, A. Tejeda, D. Wander, A. De Cecco, C. Winkelmann, Y. Jiang, T. Zhao, Z. Jiang, L. Ma, C. Berger, and W.A. de Heer
arXiv:1910.03697 (2019).
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Magnetization reversal across multiple serial barriers in a single Fe3O4 nanoparticle
S. Paul, G. Kotagiri, R. Ganguly, A Subramanian, H. Courtois, C. B Winkelmann, and A. K. Gupta
Phys. Rev. B, accepted. arXiv:2201.09011 (2022).
Imaging tunable quantum Hall broken-symmetry orders in charge-neutral graphene
A. Coissard, D. Wander, H. Vignaud, A. G. Grushin, C. Repellin, K. Watanabe, T. Taniguchi, F. Gay, C. B. Winkelmann, H. Courtois, H. Sellier, and B. Sacépé
Nature 605, 51 (2022).
Targeted modifications of monolithic multiterminal superconducting weak-links
S. Collienne, D. Majidi, J. Van de Vondel, C. B. Winkelmann, and A. V. Silhanek
Nanoscale 14, 5425 (2022).
Quantum confinement suppressing electronic heat flow below the Wiedemann-Franz law
D. Majidi, M. Josefsson, M. Kumar, M. Leijnse, L. Samuelson, H. Courtois, C. B. Winkelmann, and V. F. Maisi
Nano Lett. 22, 630 (2022).
Stochastic resonance in thermally bistable Josephson weak-links
S. Paul, G. Kotagiri, R. Ganguly, H. Courtois, C. B. Winkelmann, and A. K. Gupta
Phys. Rev. Appl. 15, 024009 (2021).
Single-Quantum-Dot Heat Valve
B. Dutta, D. Majidi, N. Talarico, N. Lo Gullo, H. Courtois, and C. B. Winkelmann
Phys. Rev. Lett. 125, 237701 (2020). Highlighted as Editor’s Selection. Highlighted in APS Synopsis
Resonant Andreev reflections probed by photon-assisted tunnelling at the atomic scale
O. Peters, N. Bogdanoff, S. Acero Gonzalez, L. Melischek, J.R. Simon, G. Reecht, C.B. Winkelmann, F. von Oppen, and K.J. Franke
Nature Phys. 16, 1222 (2020). Cover story.
Non-invasive nanoscale potentiometry and ballistic transport in epigraphene nanoribbons
A. De Cecco, V.S. Prudkovskiy, D. Wander, R. Ganguly, C. Berger, W.A. de Heer, H. Courtois, and C. B. Winkelmann
Nano Lett. 20, 3786 (2020).
Magnetic-Field-Induced Transition in a Quantum Dot Coupled to a Superconductor
A. García Corral, D.M.T. van Zanten, K.J. Franke, H. Courtois, S. Florens, and C.B. Winkelmann
Phys. Rev. Research 2, 012065(R) (2020).
Probing magnetism of individual nano-structures using Nb µ-SQUIDs in
hysteresis free mode
S. Paul, G. Kotagiri, R. Ganguly, H. Parashari, H. Courtois, C.B. Winkelmann, and A.K. Gupta
Jour. Magn. Magn. Mater. 503, 166625 (2020).
Elimination of thermal bistability in superconducting weak links by an inductive shunt
S. Biswas, C.B. Winkelmann, H. Courtois, T. Dauxois, H. Biswas, and A.K. Gupta
Phys. Rev. B 101, 024501 (2020).
Direct probe of the Seebeck coefficient in a Kondo-correlated single-quantum-dot transistor
B. Dutta, D. Majidi, A. Garcia Corral, P. Erdman, S. Florens, T. Costi, H. Courtois, and C.B. Winkelmann
Nano Lett. 19, 506 (2019).
Joule overheating poisons the fractional ac Josephson effect in topological Josephson junctions
K. Le Calvez, L. Veyrat, F. Gay, P. Plaindoux, C.B. Winkelmann, H. Courtois, and B. Sacépé
Comms. Phys. 2, 4 (2019).
Josephson Coupling in the Dissipative State of a Thermally Hysteretic μ-SQUID
S. Biswas, C.B. Winkelmann, H. Courtois, and A.K. Gupta
Phys. Rev. B 98, 174514 (2018).
Thermal Conductance of a Single-Electron Transistor
B. Dutta, J.T. Peltonen, D.S. Antonenko, M. Meschke, M.A. Skvortsov, B. Kubala, J. König, C.B. Winkelmann, H. Courtois, and J.P. Pekola
Phys. Rev. Lett. 119, 077701 (2017). Highlighted as Editor’s Selection.
Highlighted in APS Synopsis and Physik Journal Brennpunkt
High-performance electronic cooling with superconducting tunnel junctions
H. Courtois, H.Q. Nguyen, C.B. Winkelmann, and J.P. Pekola
C. R. Physique 17, 1139 (2016). Invited review article.
Equal variations of Fermi level and work function in graphene at the nanoscale
S. Samaddar, J. Coraux, S.C. Martin, B. Grévin, H. Courtois, and C.B. Winkelmann
Nanoscale 8, 15162 (2016).
Interplay between electron over-heating and ac Josephson effect
A. De Cecco, K. Le Calvez, B. Sacépé, C.B. Winkelmann, and H. Courtois
Phys. Rev. B 93, 180505(R) (2016).
Single Quantum Level Electron Turnstile
D.M.T. van Zanten, D.M. Basko, I.M. Khaymovich, J.P. Pekola, H. Courtois, C.B. Winkelmann
Phys. Rev. Lett. 116, 166801 (2016). Highlighted as Editor’s Selection.
Highlighted in APS Synopsis, IOP Physics World, Phys.org, Superconductor Week
Charge Puddles in Graphene Near the Dirac Point
S. Samaddar, I. Yudhistira, S. Adam, H. Courtois, and C.B. Winkelmann
Phys. Rev. Lett. 116, 126804 (2016). Highlighted as Editor’s Selection.
Probing Hybridization of a Single Energy Level Coupled to Superconducting Leads
D.M.T. van Zanten, F. Balestro, H. Courtois, and C.B. Winkelmann
Phys. Rev. B 92, 184501 (2015).
Controlling hysteresis in superconducting constrictions with a resistive shunt
N. Kumar, C.B. Winkelmann, S. Biswas, H. Courtois, and A.K. Gupta
Supercond. Sci. Technol. 28, 072003 (2015).
Reversibility of Superconducting Nb Weak Links Driven by the Proximity Effect in a Quantum Interference Device
N. Kumar, T. Fournier, H. Courtois, C.B. Winkelmann, and A.K. Gupta
Phys. Rev. Lett. 114, 157003 (2015).
Disorder and screening in decoupled graphene on a metallic substrate
S.C. Martin, S. Samaddar, B. Sacépé, A. Kimouche, J. Coraux, F. Fuchs, B. Grévin, H. Courtois, and C.B. Winkelmann.
Phys. Rev. B 91, 041406(R) (2015).
Superconducting cascade electron refrigerator
M. Camarasa-Gomez, A. di Marco, F.W.J. Hekking, C.B. Winkelmann, H. Courtois, and F. Giazotto.
Appl. Phys. Lett. 104, 192601 (2014).
Electronic Coolers Based on Superconducting Tunnel Junctions: Fundamentals and Applications
H. Courtois, F.W.J. Hekking, H.Q. Nguyen, and C.B. Winkelmann.
Jour. Low Temp. Phys. 175, 799 (2014).
Modulating Charge Density and Inelastic Optical Response in Graphene by Atmospheric Pressure Localized Intercalation through Wrinkles
A. Kimouche, O. Renault, S. Samaddar, C. Winkelmann, H. Courtois, O. Fruchart, and J. Coraux.
Carbon 68, 73 (2014).
On the existence of an independent phonon bath in a quantum device
L.T.A. Pascal, A. Fay, C.B. Winkelmann, and H. Courtois.
Phys. Rev. B 88, 100502(R) (2013).
Niobium-based superconducting nano-devices fabrication using all-metal suspended masks
S. Samaddar, D. van Zanten, A. Fay, B. Sacépé, H. Courtois, and C. B. Winkelmann.
Nanotechnology 24, 375304 (2013).
Trapping hot quasi-particles in a high-power electronic cooler
H.Q. Nguyen, T. Aref, V.J. Kauppila, M. Meschke, C.B. Winkelmann, H. Courtois, J.P. Pekola.
New J. Phys. 15, 085013 (2013).
A subKelvin scanning probe microscope for the electronic spectroscopy of an individual nano-device
T. Quaglio, F. Dahlem, S. Martin, A. Gérardin, C.B. Winkelmann, and H. Courtois.
Rev. Sci. Instr. 83, 123702 (2012).
Etching suspended superconducting hybrid junctions from a multilayer
H.Q. Nguyen, L.T.A. Pascal, Z.H. Peng, O. Buisson, C.B. Winkelmann, and H. Courtois.
Appl. Phys. Lett. 100, 252602 (2012).
Superconductivity in a single-C60 transistor
C.B. Winkelmann, N. Roch, W. Wernsdorfer, V. Bouchiat, and F. Balestro.
Nature Physics 5, 876 (2009).
Kondo effects in a C60 single-molecule transistor
N. Roch, C.B. Winkelmann, S. Florens, V. Bouchiat, W. Wernsdorfer, and F. Balestro.
Phys. Stat. Sol. B 245, 1994 (2008).
ULTIMA: Magnetic field dependence of the calibration factor
J. Elbs, Yu.M. Bunkov, E. Collin, H. Godfrin, O. Suvorova, and C.B. Winkelmann.
Jour. Low Temp. Phys. 151, 860 (2008).
Heat capacity of adsorbed helium-3 at ultra-low temperatures
J. Elbs, C. Winkelmann, Yu. Bunkov, E. Collin, and H. Godfrin.
Jour. Low Temp. Phys. 148, 749 (2007).
Optical switching of porphyrin-coated silicon nanowire field effect transistors
C.B. Winkelmann, I. Ionica, X. Chevalier, G. Royal, C. Bucher, and V. Bouchiat.
Nano Letters 7, 1454 (2007).
Bolometric calibration of a superfluid 3He detector for non-baryonic Dark Matter search
C.B. Winkelmann, J. Elbs, E. Collin, Yu.M. Bunkov, and H. Godfrin.
Nucl. Instr. and Meth. A 574, 264 (2007).
An analysis method for time ordered data processing of dark matter experiments
E. Moulin, J. Macías-Pérez, F. Mayet, C.B. Winkelmann, Yu.M. Bunkov, H. Godfrin and D. Santos
Astronomy & Astrophysics 453, 761 (2006).
Probing “cosmological” defects in superfluid 3He-B with a Vibrating Wire Resonator
C.B. Winkelmann, J. Elbs, Yu.M. Bunkov, and H. Godfrin.
Phys. Rev. Lett. 96, 205301 (2006).
ULTIMA: a bolometric detector for Dark Matter search using superfluid 3He
C.B. Winkelmann, J. Elbs, E. Collin, Yu.M. Bunkov, and H. Godfrin,
Nucl. Instr. and Meth. A 559, 384 (2006).
Ultra-low temperature instrumentation for measurements in astrophysics: ULTIMA
C.B. Winkelmann, Yu.M. Bunkov, and H. Godfrin.
Gravitation and Cosmology 11, 87-92 (2005).
Low-energy conversion electron detection in superfluid 3He at ultra-low temperature
E. Moulin, C.B. Winkelmann, J.F. Macías-Pérez, Yu.M. Bunkov, H. Godfrin, and D. Santos.
Nucl. Instr. and Meth. A 548, 441 (2005).
Vibrating Wire Thermometry in Superfluid 3He-B
C.B. Winkelmann, E. Collin, Yu.M. Bunkov, and H. Godfrin.
Jour. Low Temp. Phys. 135, 3-14 (2004).
Nonlinear rheology of telechelic polymer networks
J.F. Berret, Y. Séréro, B. Winkelman, D. Calvet, A. Collet, and M. Viguier.
Journal of Rheology 45, 477-492 (2001).