Overview

Full Professor at Université Grenoble Alpes

Research activities:

• Local probe tunnel spectroscopy of hybrid superconductors and superconducting semiconductors
• Mesoscopic transport in superconducting hybrid nanostructures
• Quantum thermodynamics of electronic devices
• AFM-STM combined microscopy at very low temperature

Teaching activities at the Université Grenoble Alpes, PhITEM department:

• Practicals at the Interuniversity Center for Micro-Electronics CIME Nanotech,
• Director of the European School On Nanosciences and Nanotechnologies (ESONN),
• Lecture « Near-field microscopies » at the Nanosciences – Nanotechnologies master.

at the Institut National Polytechnique de Grenoble:

• « Advanced microscopies » lecture for the international Master in Micro and NanoTechnologies for Integrated Systems.

Recent publications (full list here):

• « Single Quantum Dot Heat Valve », B. Dutta et al, Physical Review Letters 125, 237701 (2020), Editor’s suggestion.
• « Imaging tunable quantum Hall broken-symmetry orders in charge-neutral graphene », A. Coissard et al, Nature 605, 51-56 (2022).
• « Quantum confinement suppressing electronic heat flow below the Wiedemann-Franz law », D. Majidi et al, Nano Lett. 22, 630 (2022).
• « Calorimetry of a Phase Slip in a Josephson Junction », E. Gumus et al, Nature Physics 19, 196-200 (2023).
• « Evidence for chiral supercurrent in quantum Hall Josephson junctions », H. Vignaud et al, Nature 624, 545–550 (2023).

Colaborations outside Néel Institute:

• F. Lefloch et al, Pheliqs, CEA Grenoble,
• Ph. Tamarat and B. Lounis, LP2N, Bordeaux,
• J. P. Pekola, Aalto University, Helsinki,
• A. K. Gupta, IIT Kanpur, India.

Recent projects:

• ITN Q-NET pour Quantum Nano-Electronics Training (coordination, 2011-15).
• FET open « INFERNOS » (2013-15).
• Marie Curie ITN « QuESTech » (coordination, 2018-21).

Collective responsibilities:

• Associate Director and afterwards Director of Néel Institute (2011-15),
• Member of UGA Board (2016-19),
• Director of the research department Physics-Engineering-Materials (PEM) of Univ. Grenoble Alpes (2016-2019),
• Vice-president for Research and Innovation at Université Grenoble Alpes (2020-2023).

Contact :
herve.courtois (at) neel.cnrs.fr
researcher-id /J-5431-2014
Tel.: +33 (0)476881151
Institut Néel, Room D305, building D.
Postal adress: 25 avenue des Martyrs, 38042 Grenoble cedex 9, France.

Documents

Lecture notes :

« Advanced Microscopies / Nanophysics with local probes » at Master N2 / NanoPhysics (UGA) :

Courtois-1
Courtois-2
Courtois-3
Courtois-4
Courtois-5
Addendum on the square barrier model

« Quantum Nano-Electronics » at Master Sciences de la Matière (ENS Lyon) :

PolyCourtois-1
PolyCourtois-2
PolyCourtois-3
PolyCourtois-4

Publication list

Articles

[1] « Phase coherence in a two-dimensional Normal-Superconducting wires array »
H. Courtois, Ph. Gandit and B. Pannetier
Physical Review B 51, 9360-9363 (1995).
[2] « Miniature low-temperature high frequency filters for single-electronics »
H. Courtois, O. Buisson, J. Chaussy and B. Pannetier
Review of Scientific Instruments 66, 3465-3468 (1995).
[3] « Proximity-induced superconductivity in a narrow metallic wire »
H. Courtois, Ph. Gandit and B. Pannetier
Physical Review B 52, 1162-1166 (1995).
[4] « Long-range coherence in a mesoscopic metal near a superconducting interface »
H. Courtois, Ph. Gandit, D. Mailly and B. Pannetier
Physical Review Letters 76, 130-133 (1996), cond-mat/9810339.
[5] « Re-entrance of the metallic conductance in a mesoscopic proximity superconductor »
P. Charlat, H. Courtois, Ph. Gandit, D. Mailly, A. F. Volkov and B. Pannetier
Physical Review Letters 77, 4950-4953 (1996), cond-mat/9605021.
[6] « Superconducting proximity effect in a mesoscopic ferromagnetic wire »
M. Giroud, H. Courtois, K. Hasselbach, D. Mailly and B. Pannetier
Physical Review B Rapid Communications 58, R11872-11875 (1998), cond-mat/9806161.
[7] « Coherent electron transport in a superconducting-normal metallic film »
F. K. Wilhelm, A. D. Zaikin and H. Courtois
Physical Review Letters 80, 4289-4292 (1998), cond-mat/9705225.
[8] « Long-range coherence and mesoscopic transport in N-S metallic structures »
H. Courtois, Ph. Gandit, D. Mailly, and B. Pannetier
Superlattices and Microstructures 25, 820-832 (1999), cond-mat/9810339.
[9] « The spectral conductance of a mesoscopic proximity superconductor and the re-entrance effect »
H. Courtois, P. Charlat, Ph. Gandit, D. Mailly and B. Pannetier
Journal of Low Temperature Physics 116, 187-213 (1999), cond-mat/9902014.
[10] « Andreev reflection and proximity effect »
B. Pannetier and H. Courtois
Journal of Low Temperature Physics 118, 599-615 (2000), cond-mat/9912024
[11] « A very-low temperature Scanning Tunneling Microscope for the local spectroscopy of mesoscopic structures »
N. Moussy, H. Courtois and B. Pannetier
Review of Scientific Instruments 72, 128-131 (2001). cond-mat/0007128.
[12] « The Josephson critical current in a long mesoscopic S-N-S junction »
P. Dubos, H. Courtois, B. Pannetier, F. Wilhelm, A. Zaikin and G. Schön
Physical Review B 63, 64502 (2001), cond-mat/0008146.
[13] « Local spectroscopy of a proximity superconductor at very low temperature »
N. Moussy, H. Courtois and B. Pannetier
Europhysics Letters 55, 861-866 (2001), cond-mat/0106299.
[14] « Coherent low-energy charge transport in a diffusive S-N-S junction »
P. Dubos, H. Courtois, O. Buisson and B. Pannetier
Physical Review Letters 87, 206801 (2001), cond-mat/0107194.
[15] « Electron transport in a mesoscopic superconducting / ferromagnetic conductor »
M. Giroud, K. Hasselbach, H. Courtois, D. Mailly and B. Pannetier
European Physical Journal B 31, 103-109 (2003), cond-mat/0204140.
[16] « Anomalous density of states in a metallic film in proximity with a superconductor »
A. K. Gupta, L. Crétinon, N. Moussy, B. Pannetier and H. Courtois
Physical Review B 69, 104514 (2004), cond-mat/0312126.
[17] « Scanning Tunneling Spectroscopy of the superconducting proximity effect in a diluted ferromagnetic alloy »
L. Crétinon, A. K. Gupta, H. Sellier, F. Lefloch, M. Fauré, A. Buzdin and H. Courtois
Physical Review B 72, 024511 (2005), cond-mat/0502050.
[18] « Combined Scanning Force Microscopy and Scanning Tunneling Spectroscopy of an electronic nano-circuit at very low temperature »
J. Senzier, P. S. Luo and H. Courtois
Applied Physics Letters 90, 043114 (2007), cond-mat/0610408.
[19] « Laser induced resonance shifts of single molecules self-coupled by a metallic surface »
O. Labeau, Ph. Tamarat, H. Courtois, G. S. Agarwal and B. Lounis
Physical Review Letters 98, 143003 (2007).
[20] « Phonon Cooling in a Superconductor – Normal Metal – Superconductor Tunnel Junction »
Sukumar Rajauria, P. S. Luo, T. Fournier, F. W. J. Hekking, H. Courtois and B. Pannetier
Physical Review Letters 99, 047004 (2007), cond-mat/0612045.
[21] « Divergence at low bias and down-mixing of the current noise in a diffusive superconductor-normal metal-superconductor junction »
E. Lhotel, O. Coupiac, F. Lefloch, H. Courtois and M. Sanquer
Physical Review Letters 99, 117002 (2007), arXiv:0704.3729.
[22] « Andreev Current-Induced Dissipation in a Hybrid Superconducting Tunnel Junction »
Sukumar Rajauria, P. Gandit, T. Fournier, F.W.J. Hekking, B. Pannetier and H. Courtois
Physical Review Letters 100, 207002 (2008), arxiv.org:0802.2427.
[23] « Origin of Hysteresis in Proximity Josephson Junction »
H. Courtois, M. Meschke, J. T. Peltonen and J. P. Pekola
Physical Review Letters 101, 067002 (2008), arXiv:0805.4524.
[24] « Inherent thermometry in superconducting micro-coolers »
H. Courtois, S. Rajauria, P. Gandit, F.W.J. Hekking, and B. Pannetier
Journal of Low Temperature Physics 153, 325 (2008), arXiv:0809.4980.
[25] « Calorimetric readout of a superconducting proximity-effect thermometer »
M. Meschke, J.T. Peltonen, H. Courtois, and J.P. Pekola
Journal of Low Temperature Physics 154, 190-198 (2009), arXiv:0901.1013.
[26] « Spin-valve effect of the spin accumulation resistance in a double superconductor-ferromagnet junction »
P. S. Luo, T. Crozes, B. Gilles, S. Rajauria, B. Pannetier and H. Courtois
Physical Review B Rapid Communications 79, 140508(R) (2009), distinguished as “Editor’s suggestion“, arXiv:0811.4252.
[27] « Quasiparticle diffusion based heating in superconductor tunneling micro-coolers »
S. Rajauria, H. Courtois, and B. Pannetier
Physical Review B 80, 214521 (2009), arXiv:0810.1911.
[28] « Electron cooling by diffusive normal metal – superconductor tunnel junctions »
A. S Vasenko, E. V. Bezuglyi, H. Courtois and F. W. J. Hekking
Physical Review B 81, 094513 (2010), arXiv:0912.4446.
[29] « Spatially-Correlated Microstructure and Superconductivity in Polycrystalline Boron-Doped Diamond »
F. Dahlem, P. Achatz, O. A. Williams, D. Araujo, E. Bustarret, H. Courtois
Physical Review B 82, 033306 (2010), arXiv:0912.3727.
[30] « Subkelvin tunneling spectroscopy showing Bardeen-Cooper-Schrieffer superconductivity in heavily boron-doped silicon epilayers »
F. Dahlem, T. Kociniewski, C. Marcenat, A. Grockowiak, L. Pascal, P. Achatz, J. Boulmer, D. Débarre, T. Klein, E. Bustarret, H. Courtois
Physical Review B 82, 140505(R) (2010), distinguished as “Editor’s suggestion“, arXiv:1007.3598.
[31] « Hysteresis in superconducting short weak links and micro-SQUIDs »
D. Hazra, L. Pascal, H. Courtois and A. K. Gupta
Physical Review B 82, 184530 (2010), arXiv:1007.3598.
[32] « Circuit approach of photonic heat transport »
L. Pascal, H. Courtois, and F. W. J. Hekking
Physical Review B 83, 125113 (2011), arXiv:1003.3217.
[33] « Noise Correlations in Three-Terminal Diffusive Superconductor-Normal Metal-Superconductor Nanostructures »
B. Kaviraj, O. Coupiac, H. Courtois and F. Lefloch
Physical Review Letters 107, 077005 (2011), arXiv:1104.4211.
[34] « Efficient Quasiparticle Evacuation in Superconducting Devices »
Sukumar Rajauria, L. M. A. Pascal, Ph. Gandit, F. W. J. Hekking, B. Pannetier, H. Courtois
Physical Review B 85, 020505 (2012), arXiv:1106.4949.
[35] « Etching suspended superconducting tunnel junctions from a multilayer »
H. Q. Nguyen, L. M. A. Pascal, Z. H. Peng, O. Buisson, B. Gilles, C. B. Winkelmann and H. Courtois
Applied Physics Letters 100, 252602 (2012), arXiv:1111.3541.
[36] « 3D boron distribution in heavily doped silicon epilayers resolved by atom probe tomography »
K. Hoummada, F. Dahlem, T. Kociniewski, J. Boulmer, C. Dubois, G. Prudon, E. Bustarret, H. Courtois, D. Débarre and D. Mangelinck
Applied Physics Letters 101, 182602 (2012), arXiv:1103.4409.
[37] « A subKelvin scanning probe microscope for the electronic spectroscopy of an individual nano-device »
T. Quaglio, F. Dahlem, S. Martin, A. Gérardin, C. Winkelmann and H. Courtois
Review of Scientific Instruments 83, 123702 (2012), arXiv:1209.5502.
[38] « 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, and J. P. Pekola
New Journal of Physics 15, 085013 (2013), arXiv:1304.1846.
[39] « Niobium-based superconducting nano-devices fabrication using all-metal suspended masks »
S. Samaddar, A. Fay, B. Sacépé, H. Courtois, C. B. Winkelmann
Nanotechnology 24, 75304 (2013), arXiv:1304.5381.
[40] « Existence of an independent phonon bath in a quantum device »
L. M. A. Pascal, A. Fay, C. B. Winkelmann and H. Courtois
Physical Review B Rapid Communication 88, 100502(R) (2013), arXiv:1301.3612.
[41] « 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, J. Coraux
Carbon (2013), arXiv:1311.1357.
[42] « Long-ranged magnetic proximity effects in noble metal-doped cobalt probed with spin-dependent tunneling »
M. S. Gabureac, D. Mac Laren, H. Courtois and C. H. Marrows
New Journal of Physics 16, 043008 (2014), arXiv:1404.6565.
[43] « Superconducting cascade electron refrigerator »
M. Camarasa-Gomez, A. di Marco, F. W. J. Hekking, C. B. Winkelmann, H. Courtois, F. Giazotto
Applied Physics Letters 104, 192601 (2014), arXiv:1404.4701.
[44] « Sub-Gap Structure in a Three-Terminal Josephson Junction Conductance »
A. H. Pfeffer, J. E. Duvauchelle, H. Courtois, R. Mélin, D. Feinberg, F. Lefloch
Physical Review B 90, 075401 (2013), arXiv:1307.4862.
[45] « Sub-50 mK electronic cooling with superconducting tunnel junctions »
H. Q. Nguyen, M. Meschke, H. Courtois, J. P. Pekola
Physical Review – Applied 2, 054001 (2013), arXiv:1402.5872 (2014).
[46] « Disorder and screening in decoupled graphene on a metallic substrate »
S. Martin, B. Sacépé, A. Kimouche, J. Coraux, F. Fuchs, B. Grévin, H. Courtois and C. B. Winkelmann
Physical Review B Rapid Communication 91, 041406 (2015), arXiv:1304.1183.
[47] « Reversibility Of Superconducting Nb Weak Links Driven By The Proximity Effect In A Quantum Interference Device »
Nikhil Kumar, T. Fournier, H. Courtois, C. B. Winkelmann, and Anjan K. Gupta
Physical Review Letters 114, 157003 (2015), arXiv:1411.7196.
[48] « Controlling hysteresis in superconducting constrictions with a resistive shunt »
Nikhil Kumar, C. B. Winkelmann, Sourav Biswas, H. Courtois and Anjan K. Gupta
Superconductor Science and Technology 28, 072003 (2015), arXiv:1503.05664.
[49] « Probing Hybridization of a Single Energy Level Coupled to Superconducting Leads »
D. M. T. van Zanten, H. Courtois, C. B. Winkelmann
Physical Review B 92, 184501 (2015), arXiv:1506.07695.
[50] « Charge Puddles in Graphene Near the Dirac Point »
S. Samaddar, I. Yudhistira, S. Adam, H. Courtois, and C. B. Winkelmann
Physical Review Letters 116, 126804 (2016), Editor’s suggestion, arXiv:1512.05304.
[51] « Single quantum level electron turnstile »
D. M. T. van Zanten, I. Khaymovich, D. Basko, J. P. Pekola, H. Courtois, C. B. Winkelmann
Physical Review Letters 116, 166801 (2016), Editor’s suggestion, arXiv:1601.02469.
[52] « Interplay Between Electron Over-Heating and ac Josephson Effect »
A. de Cecco, K. Le Calvez, B. Sacépé, C. B. Winkelmann and H. Courtois
Physical Review B 93, 180505 (2016), arXiv:1601.04434.
[53] « High-performance electronic cooling with superconducting tunnel junctions »
H. Courtois, H. Q. Nguyen, C. B. Winkelmann, J. P. Pekola
Compte-Rendus de Physique 17, 1139 (2016), arXiv:1608.06410.
[54] « 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).
[55] « Thermal Conductance of a Single-Electron Transistor »
B. Dutta, J. Peltonen, D. S. Antonenko, M. Meschke, M. A. Skvortsov, B. Kubala, J. Konig, C. Winkelmann, H. Courtois, J. P. Pekola
Phys. Rev. Lett. 119, 077701 (2017), Editor’s suggestion, arXiv:1704.02622.
[56] « Josephson Coupling in the Dissipative State of a Thermally Hysteretic µ-SQUID »
S. Biswas, C. B. Winkelmann, H. Courtois, A. K. Gupta
Phys. Rev. B 98, 174514 (2018), arXiv:1709.02569.
[57] « Mesoscopic electron transport and atomic gases, a review of Frank W. J. Hekking’s scientific work »
L. Amico, D. M. Basko, S. Bergeret, O. Buisson, H. Courtois, R. Fazio, W. Guichard, A. Minguzzi, J. Pekola, G. Schon
SciPost Phys. 5, 009 (2018). arXiv:1804.06213.
[58] « Direct Probe of the Seebeck Coefficient in a Kondo-Correlated Single-Quantum-Dot Transistor »
B. Dutta, D. Majidi, A. García Corral, P. A. Erdman, S. Florens, T. A. Costi, H. Courtois, and C. B. Winkelmann
Nano Letters 19, 506 (2019), arXiv:1811.04219.
[59] « 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
Comm. Phys. 2, 4 (2019), arXiv:1803.07674.
[60] « Non-Linear Thermovoltage in a Single-Electron Transistor »
P. A. Erdman, J. T. Peltonen, B. Bhandari, B. Dutta, H. Courtois, R. Fazio, F. Taddei, J. P. Pekola
Physical Review B 99, 165405 (2019), arXiv:1812.06514.
[61] « Fully tunable quantum interference patterns in a tandem Josephson Junction »
Stefano Guiducci, Matteo Carrega, Fabio Taddei, Giorgio Biasiol, Hervé Courtois, Stefan Heun
Physical Review B 99, 235419 (2019), arXiv:1903.02819.
[62] « Magnetic-Field-Induced Transition in a Quantum Dot Coupled to a Superconductor »
A. Garcia Corral, D. M. T. van Zanten, K. J. Franke, H. Courtois, S. Florens, C. B. Winkelmann
Physical Review Research 2, 012065(R) (2019). arXiv:1912.04084.
[63] « 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
Physical Review B 101, 024501 (2020), arXiv:1807.07720.
[64] « Non-invasive Nanoscale Potentiometry and Ballistic Transport in Epigraphene Nanoribbons »
A. De Cecco, V. Prudkovskiy, D. Wander, R. Ganguly, C. Berger, W. A. de Heer, H. Courtois and C. B. Winkelmann
Nano Letters 20, 3786 (2020), arXiv:2002.11024.
[65] « A Single-Quantum-Dot Heat Valve »
B. Dutta, D. Majidi, N. W. Talarico, N. Lo Gullo, C. B. Winkelmann, H. Courtois
Physical Review Letters 125, 237701 (2020), Editor’s suggestion, arXiv:2001.08183.
[66] « Stochastic resonance in thermally bistable superconducting weak-links »
S. Paul, G. Kotagiri, R. Ganguly, H. Courtois, C. B. Winkelmann, and A. K. Gupta
Physical Review Applied 15, 024009 (2021), arXiv:2010.13349.
[67] « 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), arXiv:2106.06229.
[68] « 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. Winkelmann, H. Courtois, H. Sellier, B. Sacépé
Nature 605, 51-56 (2022), arXiv:2110.02811.
[69] « 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
Physical Review B 105, L180410 (2022), arXiv:2201.09011.
[70] « 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
Nature Physics 19, 196–200 (2023), arXiv:2202.08726.
[71] « Absence of edge reconstruction for quantum Hall edge channels in graphene devices »
A. Coissard, A. G. Grushin, C. Repellin, L. Veyrat, K. Watanabe, T. Taniguchi, F. Gay, H. Courtois, H. Sellier, and B. Sacépé
Science Advances 9, 7227 (2023), arXiv:03919523 .
[72] « Evidence for chiral supercurrent in quantum Hall Josephson junctions »
H. Vignaud, D. Perconte, W. Yang, B. Kousar, E. Wagner, F. Gay, K. Watanabe, T. Taniguchi, H. Courtois, Z. Han, H. Sellier, and B. Sacépé
Nature 624, 545–550 (2023), arXiv:04103168.

Book

Mémo visuel de physique, G. Faini, H. Courtois, S. Matzen, C. Py, P. Seneor, for Bachelor and CAPES students, éditions Dunod (2017), second edition (2020) (have a look here).

Group PhD manuscripts

[1] PhD thesis of Université Joseph Fourier of Norbert Moussy:
« Nanospectroscopie par microscopie à effet tunnel à très basse température de jonctions supraconductrices hybrides »
defended on October 23th 2000, Grenoble (download here).
[2] PhD thesis of Université Joseph Fourier of Pascal Dubos directed by Bernard Pannetier:
« Transport électronique dans des nano jonctions supraconducteur – métal normal – supraconducteur »
defended on October 27th, 2000, Grenoble (download here).
[3] PhD thesis of Université Joseph Fourier of Pierre Charlat directed by Bernard Pannetier:
« Transport et cohérence quantique dans des nanocircuits hybrides supraconducteur – métal »
defended on September 23th, 1997, Grenoble (download here).
[4] PhD thesis of Université Joseph Fourier of Laurent Crétinon:
« Nanospectroscopie par microscopie à effet tunnel à très basse température de jonctions supraconductrices hybrides »
defended on December 20th 2004, Grenoble (download here).
[5] PhD thesis of Université Joseph Fourier of Julien Senzier:
« Spectroscopie locale de nanostructures supraconductrices par microscopie combinée AFM-STM à très basse température »
defended on May 4th 2007, Grenoble (download here).
[6] PhD thesis of Université Joseph Fourier of Sukumar Rajauria:
« Refroidissement électronique à base de jonctions tunnel supraconductrices »
defended on November 14th, 2008, Grenoble (download here).
[7] PhD thesis of Université Joseph Fourier of Thomas Quaglio:
« Spectroscopies locales sur des nanostructures hybrides hors équilibre »
defended on january 19th, 2012, Grenoble (download here).
[8] PhD thesis of Université Grenoble Alpes of Laetitia Pascal:
« Electronic refrigeration and thermal coupling in superconducting hybrid devices »
defended on March 31st, 2012, Grenoble (download here).
[9] PhD thesis of Université Grenoble Alpes of Sylvain Martin, directed with Clemens Winkelmann:
« Systèmes nanoélectroniques hybrides: cartographies de la densité d’états locale »
defended on December 13th, 2012, Grenoble (download here).
[10] PhD thesis of Université Grenoble Alpes of David van Zanten, directed with Clemens Winkelmann: 
« Quantum dynamics revealed in weakly coupled quantum dot – superconductor turnstiles »
defended on June 1st, 2015, Grenoble (download here).
[11] PhD thesis of Université Grenoble Alpes of Sayanti Samaddar, directed with Clemens Winkelmann:
« Désordre de charge et écrantage dans le graphène »
defended on October 23rd, 2015, Grenoble (download here).
[12] PhD thesis of Université Grenoble Alpes of Kevin Le Calvez, directed with Benjamin Sacépé:
« Signatures of a 4pi periodic Andreev bound state in topological Josephson junctions »
defended on April 12th, 2017, Grenoble (download here).
[13] PhD thesis of Université Grenoble Alpes of Alessandro de Cecco, directed with Clemens Winkelmann:
« Quantum electronics in nanostructures explored by Scanning Probe Microscopy »
defended on October 10th, 2018, Grenoble (download here).
[14] PhD thesis of Université Grenoble Alpes of Bivas Dutta, directed with Clemens Winkelmann:
« Energetics in Metallic-Island and Quantum-Dot based Single-Electron Devices »
defended on November 19th, 2018, Grenoble (download here).
[15] PhD thesis of the Université Grenoble Alpes of Alvaro Garcia-Corral, directed with Clemens Winkelmann:
« Yu-Shiba-Rusinov states in superconductor-quantum dot transistors made by electromigration »
defended on October 19th, 2020, Grenoble (download here).
[16] PhD thesis of Université Grenoble Alpes of Alexis Coissard, directed with Benjamin Sacépé:
« Les états fondamentaux du graphène en régime Hall quantique et leurs canaux de bord »
defended on November 22th, 2021, Grenoble (download here).
[17] PhD thesis of Université Grenoble Alpes of Danial Majidi, directed with Clemens Winkelmann:
« Transport de chaleur dans une boîte quantique »
defended on December 15th, 2021, Grenoble (download here).
[18] PhD thesis of Université Grenoble Alpes of Efe Gumus, directed with Clemens Winkelmann:
« Calorimetry of a Phase Slip in a Josephson Junction » (download here).
defended on April 28th, 2023, Grenoble.
[19] PhD thesis of Université Grenoble Alpes of David Wander, directed with Clemens Winkelmann:
« Investigation of mesoscopic superconductivity and quantum Hall effect by low temperature Scanning Tunneling Microscopy »
defended on September 12th, 2022, Grenoble (download here).
[20] PhD thesis of Université Grenoble Alpes of Hadrien Vignaud, directed with Benjamin Sacépé :
« Chiral supercurrent in quantum Hall Josephson junctions »
defended on December 20th, 2023, Grenoble.

Memorandums

PhD thesis of Hervé Courtois:
« Effets de cohérence électronique dans les nanostructures supraconductrices »,
defended on December 2nd 1994, Grenoble (download here).
Habilitation à Diriger des Recherches Memorandum of Hervé Courtois:
« Supraconductivité de proximité dans les nanostructures métalliques artificielles »,
defended on September 14th 2000, Grenoble (download here).

Contact

Département : QUEST

Équipe : Quantum Nano-Electronics and Spectroscopy (QuNES)

Statut : Personnel Chercheur

Organisme : UGA

Position : Permanent

Email : Herve.Courtois@neel.cnrs.fr

Téléphone : 04 76 88 11 51

Bureau : D-305