Publications

Refereed Full Papers:

[67]T. Grass, D. Bercioux, U. Bhattacharya, M. Lewenstein, H.-S. Nguyen, C. Weitenberg
“Colloquium: Synthetic quantum matter in non-standard geometries”
[arXiv:2407.06105]
[66]C. Tassi & D. Bercioux
“Implementation and characterization of the dice lattice in the electron quantum simulator”
[arXiv:2403.06040] Accepted for publication in Advanced Physics Research, in press (2024).
[65]C.Martínez-Strasser, M.A.J.Herrera, A. García-Etxarri, G.Palumbo, F. K. Kunst, D.Bercioux
“Topological properties of a non-Hermitian quasi-one-dimensional chain with a flat band”
[arXiv:2307.08754] Advanced Quantum Technology 7, 2300225 (2023).
[64]D. Bercioux, D. Frustaglia, & A. De Martino
“Chiral spin channels in curved graphene pn junctions”
[arXiv:2303.05833] Physical Review B 108, 115140 (2023).
[63]D. -H.-M. Nguyen, C. Devescovi, D.-X. Nguyen, H.-S. Nguyen & D. Bercioux
“Fermi arc reconstruction in synthetic photonic lattice”
[arXiv:2211.07230Physical Review Letters 131, 053602 (2023).
[62]A. Hijano, E. J. Rodríguez, D. Bercioux & D.  Frustaglia
“Spin-texture topology in curved circuits driven by spin-orbit interactions”
[arXiv:2209.11653Communications Physics 6, 186 (2023).
[61]A. Skurativska, J. Ortuzar, D. Bercioux, F. S. Bergeret, & M. A. Cazalilla
“Robust Spin Polarization of Yu-Shiba-Rusinov States in Superconductor/Ferromagnetic Insulator Heterostructures”
[arXiv:2302.13864Physical Review B 107, 224507 (2023).
[60]M. A. J. HerreraD. Bercioux 
“Tunable Dirac points in a two-dimensional non-symmorphic wallpaper group lattice”[arXiv:2207.10043Communications Physics 6, 42 (2023).
[59]M. Blanco de Paz, M. A. J. Herrera, P. Arroyo Huidobro, H. Alaeian, M. G. Vergniory, B. Bradlyn, G. Giedke, A. García-Etxarri & D. Bercioux
Energy density as a probe of band representations in photonic crystals
[arXiv:2203.10908Journal of Physics: Condensed Matter 34, 314002 (2022).
[58]D. Perconte, D. Bercioux, B. Dlubak, P. Seneor, F. S. Bergeret &  J. Villegas
“Superconducting proximity effect in d-wave cuprate/graphene heterostructures”[arXiv:2112.98749Annalen der Physik 534, 2100559 (2022).
[57]M. A. J. Herrera, S. N. Kempkes,  M. Blanco de Paz,  A. García-Etxarri, I. Swart, C. Morais Smith, & D. Bercioux 
“Corner modes of the breathing kagome lattice: Origin and robustness” 
[arXiv:2201.07576Physical Review B 105, 085411 (2022).
[56]G. Buchs, M. Marganksa, J.W. Golzález, K. Eimre, C.A. Pignedoli, D. Passerone, A. Ayuela, O. Gröning, & D. Bercioux
“Metallic Carbon Nanotube Quantum Dots with Broken Symmetries as a Platform for Tunable Terahertz Detection“
[arXiv:2006.10837], Applied Physics Review 8, 021406 (2021).
[55]A. Hijano, T. van den Berg, D. Frustaglia & D. Bercioux
“A quantum-network approach to spin interferometry driven by Abelian and non-Abelian fields“
[arXiv:2010.08471Physical Review B 103, 155419 (2021).
[54]M. Proctor, M. Blanco de Paz, D. Bercioux,  A. García-Etxarri & P. Arroyo Huidobro
“Higher-order topology in plasmonic kagome lattices”
[arXiv:2012.09791Applied Physics Letters 118, 091105 (2021).
[53]M. Proctor, P. Arroyo Huidobro, B. Bradlyn, M. Blanco de Paz, M. G. Vergniory, D. Bercioux, & A. García-Etxarri
“Robustness of topological corner modes in photonic crystals”
[arXiv:2007.10624Physical Review Research 2, 042038(R) (2020).
[52]V. Nam Do, H. Anh Le, V. Duy Nguyen & D. Bercioux
“Optical Hall response of bilayer graphene: the manifestation of chiral hybridised states in broken mirror symmetry lattices”
[arXiv:2009.10398Physical Review Research 2, 043281 (2020).
[51]D. Bercioux, T. Van den Berg, D. Ferraro, J. Rech, T. Jonckheere & T. Martin
“Wave-particle duality of electrons with spin-momentum locking”
[arXiv:2007.01021The European Physical Journal Plus 135, 811 (2020).
[50]D. Perconte, K. Seurre, V. Humbert, C. Ulysse, A. Sander, J. Trastoy, V. Zatko, F. Godel, P. R. Kidambi, S. Hofmann, X. P. Zhang, D. Bercioux, F. S. Bergeret, B. Dlubak, P. Seneor, & Javier E. Villegas
“Long-range propagation and interference of d-wave superconducting pairs in graphene”
[arXiv:2002.10173], Physical Review Letters 125, 087002 (2020).
[49]T. L. Van den Berg, A. De Martino, M.R. Calvo & D. Bercioux
“Volkov-Pankratov states in topological graphene nanoribbons”
[arXiv:2004.03293], Physical  Review Research 2, 023373 (2020).
[48]T. L. Van den Berg, M.R. Calvo & D. Bercioux
“Living on the edge: Topology, electrostatics and disorder”
[arXiv:1911.09363], Physical Review Research 2, 013171 (2020).
[47]M. Blanco de Paz, C. Devescovi, G. Giedke, J. J. Saenz, M. G. Vergniory, B. Bradlyn, D. Bercioux,& A. García-Etxarri
“Tutorial: Computing topological invariants in two-dimensional photonic crystals”[arXiv:1912.00944], Advanced Quantum Technology 3, 1900117 (2020).
[46]S. N. Kempkes, M. R. Slot, J. J. van den Broeke, P. Capiod, W. A. Benalcazar, D. Vanmaekelbergh, D. Bercioux,  I. Swart, & C. Morais Smith 
“Robust zero-energy modes in an electronic higher-order topological insulator”[arXiv:1905.06053], Nature Materials 18, 1292 (2019)
[45]M. Blanco de Paz, M. G. Vergniory, D. Bercioux, A. García-Etxarri & B. Bradlyn
“Engineering Fragile Topology in Photonic Crystals: Topological Quantum Chemistry of Light”[arXiv:1903.02562], Physical Review Research 1, 032005(R)(2019)
[44]D. Bercioux & A. De Martino
“Spin-orbit interaction and snake states in graphene p-n junction“
[arXiv:1907.01233], Physical Review B 100, 115407 (2019).
[43]H. Nam Do, H. Anh Le, & D. Bercioux
“Time-evolution patterns of electrons in twisted bilayer graphene”
[arXiv:1901.02794], Physical Review B 99, 165127 (2019).
[42]D. Bercioux & A. Iñiguez
“Nanoscience — Quantum fractals”News & View, Nature Physics 15, 111 (2019).
News & Views article featuring papers by Kempkes et al.,Nature Physics 15, 127 (2019).
[41]D. Bercioux, B. Bujnowski & S. Bergeret
“Quantum Transport Properties of an Exciton Insulator/Superconductor Hybrid Junction”[arXiv:1806.03991], Advanced Quantum Technologies 2, 1800049 (2019).
This article was featured in the online blog Advanced Science News (2019)
[40]D. Bercioux & P. Lucignano
“Quasiparticle cooling using a Topological insulator-Superconductor hybrid junction”
[arXiv:1804.07170], European Journal of Physics Special Topics 227, 1323 (2018)
[39]G. Buchs, D. Bercioux, L. Mayrhofer, & O. Gröning
“Confined electron and hole states in semiconducting carbon nanotube sub-10 nm artificial quantum dots”
[arXiv:1709.07671], Carbon 132, 304 (2018).
[38]D. Bercioux, O. Dutta, & E. Rico
“Solitons in one-dimensional lattices with a flat band”
[arXiv:1609.06292], Annalen der Physik 529, 1600262  (2017).
[37]D. Bercioux, F. S. Bergeret, & T.M. Klapwijk
“Transport properties of an electron-hole bilayer/superconductor hybrid junction”[arXiv:1703.10510], Physical Review Letters 119, 067001 (2017).
This article was featured in the online blog MappingIgnorance (2017)
[36]D. Bercioux & Sander Otte
“Quantum Simulation — Solid-state platforms”
News & View, Nature Physics 13, 628 (2017).
[35]B. Bujnowski, D. Bercioux, F. Konschelle, J. Cayssol & F. S. Bergeret
“Andreev spectrum of a Josephson junction with spin-split superconductors”
[arXiv:1607.07772],  EPL 115, 67001 (2016).
[34]D. Bercioux & P. Lucignano
“Quantum transport in Rashba spin-orbit materials: A review”
[arXiv:1502.00570], Report on Progress in Physics 78, 106001 (2015).
[33]D. Bercioux, R. Egger, P. Hänggi & M. Thorwart
“Focus on nonequilibrium fluctuation relations: from classical to quantum”
New Journal of Physics 17, 020201 (2015).
Editorial introduction to a special issue of New Journal of Physics.
[32]L. Lenz, D.F. Urban, & D. Bercioux
“Rashba spin-orbit interaction in graphene armchair nanoribbons”
[arXiv:1210.2865], The European Journal of Physics B 86, 502 (2013).
[31]A. Inhofer & D. Bercioux
“Proposal for an on-demand source of polarized electrons into the edges of a topological insulator”
[arXiv:1307.1198], Physical Review B 88, 235412 (2013).
[30]M. Schulze, D. Bercioux,  & D. F. Urban
“Adiabatic pumping in the quasi-one-dimensional triangle lattice”
[arXiv:1208.6113],  Physical Review B 87, 024301 (2013).
[29]D. Bercioux, D. F. Urban, F. Romeo, & R. Citro
“Rashba spin-orbit-interaction-based quantum pump in graphene”
[arXiv:1204.5008], Applied Physics Letters 101, 122405 (2012).
[28] L. Lenz & D. Bercioux
“Dirac-Weyl electrons in a periodic spin-orbit potential”
[arXiv:1106.4242], EPL 96, 27006 (2011).
[27]D. F. Urban, D.Bercioux, M. Wimmer, W. Häusler
“Barrier transmission of Dirac-like pseudospin-one particles”
[arXiv:1106.2170], Physical Review B 84, 115136 (2011).
This article was featured by Physical Review B (September 2011) in the section Kaleidoscope
[26]L. Mayrhofer & D. Bercioux
“Pseudo-spin-dependent scattering in carbon nanotubes”
[arXiv:1009.4839], Physical Review B 84, 115126 (2011).
[25]
N. Goldman, D. F. Urban, & D. Bercioux
“Topological Phases for Fermionic Cold Atoms on the Lieb Lattice”
[arXiv:1101.4500], Physical Review A 83, 063601 (2011).
[24]D. Bercioux, G. Buchs, H. Grabert, & O. Gröning 
“Defect-Induced Multicomponent Electron Scattering in Single-Walled Carbon Nanotubes”[arXiv:1011.1423], Physical Review B 83, 165439 (2011).
[23]D. Bercioux, N. Goldman, & D. F. Urban
“Topology-induced  phase transitions in quantum spin-Hall lattice”
[arXiv:1007.2056], Physical Review A 83, 023609 (2011).
This article was featured by Physical Review A (February 2011) in the section Kaleidoscope
[22]C. Vierheilig, D. Bercioux, & M. Grifoni
“Dynamics of a qubit coupled to a dissipative nonlinear quantum oscillator: an effective bath approach”
[arXiv:1010.4684], Physical Review A 83, 012106 (2011).
[21]M. Scheid, D. Bercioux, & K. Richter
“Spin-Orbit Based Coherent Spin Ratchets”
[arXiv:1004.5279], Chemical Physics 375, 276 (2010)
[20]
D. Bercioux & A. De Martino
“Spin-resolved transmission through spin-orbit nanostructures in graphene”
[arXiv:1002.0441], Physical Review B 81, 165410 (2010).
[19]
D. Bercioux, D. F.  Urban,  H. Grabert, & W. Häusler 
“Massless Dirac-Weyl Fermions in a T3 Optical Lattice”
[arXiv:0909.3035], Physical Review A  80, 063603 (2009).
[18]S. Smirnov, D. Bercioux, M. Grifoni, & K. Richter 
“Charge ratchet from spin flip: Space-time symmetry paradox”
[arXiv:0911.3273], Physical Review B 80, 201310(R) (2009).
[17]
G. Buchs, D. Bercioux, P. Ruffieux, P. Gröning, H. Grabert, & O. Gröning “Electron scattering in intrananotube quantum dots”
[arXiv:0812.3883], Physical Review Letters 102, 245505 (2009).
[16]S. Pugnetti, F. Dolcini, D. Bercioux, & H. Grabert 
“Electron tunneling into a quantum wire in the Fabry-Pérot regime” 
[arXiv:0810.2962], Physical Review B 79, 035121 (2009).
[15]S. Smirnov, D. Bercioux, M. Grifoni, & K. Richter 
“Interplay between quantum dissipation and an in-plane magnetic field in the spin ratchet effect” 
[arXiv:0809.1296], Physical Review B 78, 245323 (2008).
[14]S. Smirnov, D. Bercioux, M. Grifoni, & K. Richter 
“Quantum dissipative Rashba spin ratchets” [arXiv:0803.3526], Physical Review Letters 100, 230601 (2008). 
This article was featured by M. Flatté in the “News & Views” section of Nature Physics 4, 587 (2008)
[13]M. Scheid, D. Bercioux, & K. Richter 
“Zeeman ratchets: Pure spin current generation in mesoscopic conductors with non-uniform magnetic fields” 
[arXiv:0707.2478], New Journal of Physics 9, 401 (2007).
This article was featured by M. Flatté in the “News & Views” section of Nature Physics 4, 587 (2008)
[12]M. Scheid, A. Pfund, D. Bercioux, & K. Richter 
“Coherent spin ratchets: A spin-orbit based quantum ratchet mechanism for spin-polarized currents in ballistic conductors” 
[arXiv:cond-mat/0601118], Physical Review B 76, 195303 (2007)
[11]
C. A. Perroni, D. Bercioux, V. M. Ramaglia, & V. Cataudella 
“Rashba quantum wire: exact solution and ballistic transport”
[arXiv:cond-mat/0701508], Journal of Physics: Condensed Matter 19, 186227 (2007)
[10]S. Smirnov, D. Bercioux & M. Grifoni 
“Bloch’s theory in periodic structures with Rashba’s spin-orbit interaction” 
[arXiv:0705.3830], EPL 80, 27003 (2007)
[9]M. Scheid, M. Wimmer, D. Bercioux & K. Richter 
“Zeeman ratchets for ballistic spin currents” 
[arXiv:cond-mat/0607380], physica status solidi (c) 3, 4235 (2006)
[8]D. Bercioux, D. Frustaglia, & M. Governale 
“Signatures of spin-related phases in transport through regular polygons” 
[arXiv:cond-mat/0505750], Physical Review B 72, 113310 (2005)
[7]D. Bercioux, M. Governale, V. Cataudella, &  V. M. Ramaglia 
“Rashba effect in quantum networks”
 [arXiv:cond-mat/0502455], Physical Review B 72, 075305 (2005).  
[6]D. Bercioux &  V. M. Ramaglia
“The spin-double refraction in two-dimensional electron gas”
[arXiv:cond-mat/0502456], Superlattices and Microstructures 37, 337 (2005).
[5]V. M. Ramaglia, D. Bercioux, V. Cataudella, G. De Filippis, & C. A. Perroni 
“Spin polarization of electrons with Rashba double-refraction” 
[arXiv:cond-mat/0403534], Journal of Physics: Condensed Matter 16, 9143 (2004).
[4]D. Bercioux, M. Governale, V. Cataudella, & V. M. Ramaglia 
“Rashba-effect-induced localization in quantum networks” 
[arXiv:cond-mat/0401187], Physical Review Letters 93, 56802 (2004)
[3]D. Bercioux, M. Governale, V. Cataudella, & V. M. Ramaglia 
“Quantum networks in the presence of the Rashba effect and a magnetic field” 
Materials Science—Poland 22, 553 (2004).
[2]V. M. Ramaglia, D. Bercioux, V. Cataudella, G. De Filippis, C.A. Perroni, & F. Ventriglia
“Conductance of a large point contact with Rashba effect” 
[arXiv:cond-mat/0203569], The European Physical Journal B 36, 365 (2003)
[1]G. De Filippis, V. Cataudella, C.A. Perroni, V. M. Ramaglia, & D. Bercioux 
“Ground state features of the Fröhlich model” 
[arXiv:cond-mat/0309309], The European Physical Journal B 36, 65 (2003)