2013 • 2012 • 2011 • 2010 • 2009 • 2008 • 2007 • 2006 • 2005 • 2004 • 2003 • 2002 • 2001 • 1998-2000
 

Dissipative nonequilibrium synchronization of topological edge states via self-oscillation,
C. W. Wächtler, V. M. Bastidas, G. Schaller, and W. J. Munro,
Physical Review B 102 014309 (2020) [1], arXiv:[2005.07204] [2].

Thermodynamics of the coarse-graining master equation,
G. Schaller and J. Ablaßmayer,
Entropy 22, 525 (2020) [3], e-print:[2004.01554] [4].

Transport through a quantum critical system: A thermodynamically consistent approach,
C. W. Wächtler and G. Schaller,
Physical Review Research 2, 023178 (2020) [5], e-print:[1912.01340] [6].

Stochastic thermodynamics of an electron spin resonance quantum dot system,
JunYan Luo, Yiying Yan, Hailong Wang, Jing Hu, Xiao-Ling He, and Gernot Schaller,
Physical Review B 101, 125410 (2020) [7], e-print:1910.12275 [8]

Polaron-transformed dissipative Lipkin-Meshkov-Glick Model,
W. Kopylov and G. Schaller,
Physical Review A 100, 063815 (2019) [9], e-print:1906.04260 [10]

Collective performance of a finite-time quantum Otto cycle,
M. Kloc, P. Cejnar, and G. Schaller,
Physical Review E 100, 042126 (2019) [11], e-print:[1905.08692] [12].

Electron pumping in the strong coupling and non-Markovian regime: A reaction coordinate mapping approach
S. Restrepo, S. Böhling, J. Cerrillo, and G. Schaller,
Physical Review B 100, 035109 (2019) [13], e-print:[1905.00581] [14].

Proposal of a realistic stochastic rotor engine based on electron shuttling
C. W. Wächtler, P. Strasberg, and G. Schaller,
Physical Review Applied 12, 024001 (2019) [15], e-print:[1903.07500] [16].

Stochastic thermodynamics of self-oscillations: the electron shuttle
C. W. Wächtler, P. Strasberg, S. H. L. Klapp, G. Schaller, and C. Jarzynski,
New Journal of Physics 21, 073009 (2019) [17], e-print:[1902.08174] [18].

Cooperative efficiency boost for quantum heat engines
D. Gelbwaser-Klimovsky, W. Kopylov and G. Schaller,
Physical Review A 99, 022129 (2019) [19], arXiv:1809.02564 [20]

The reaction coordinate mapping in quantum thermodynamics,
A. Nazir and G. Schaller, as a chapter of
F. Binder, L. A. Correa, C. Gogolin, J. Anders, and G. Adesso (eds.),
Thermodynamics in the quantum regime - Recent Progress and Outlook [21]
(Springer International Publishing), arXiv:1805.08307 [22]

Transmission from reverse reaction coordinate mappings
N. Martensen and G. Schaller,
The European Physical Journal B 92, 30 (2019) [23], arXiv:1809.10529 [24]

Wiseman-Milburn Control for the Lipkin-Meshkov-Glick Model
S. Zimmermann, W. Kopylov and G. Schaller,
Journal of Physics A 51 385301(2018) [25], arXiv:1803.01138 [26]

Thermoelectric performance of topological boundary modes
S. Böhling, G. Engelhardt, G. Platero, and G. Schaller,
Physical Review B 80 035132, (2018) [27], arXiv:1803.03609 [28]

Interplay of coherent and dissipative dynamics in condensates of light
M. Radonjic, W. Kopylov, A. Balaz and A Pelster,
New Journal of Physics 20, 055014 (2018) [29], arXiv:1801.00155 [30]

From quantum heat engines to laser cooling: Floquet theory beyond the Born-Markov approximation
S. Restrepo, J. Cerrillo, P. Strasberg, and G. Schaller,
New Journal of Physics 20, 053063 (2018) [31], arXiv:1712.07032 [32]

Fermionic reaction coordinates and their application to an autonomous Maxwell demon in the strong coupling regime
P. Strasberg, G. Schaller, T. L. Schmidt and M. Esposito
Phys. Rev. B 97, 205405 (2018) [33], arXiv: 1711.08914 [34]

Electronic Maxwell demon in the coherent strong-coupling regime
G. Schaller, J. Cerrillo, G. Engelhardt and P. Strasberg
Phys. Rev. B 97, 195104 (2018) [35], arXiv:1711.00706 [36]

Maxwell's demon in the quantum-Zeno regime and beyond
G. Engelhardt and G. Schaller
New Journal of Physics 20, 023011 (2018) [37], arXiv:1710.06306 [38]

Random-walk topological transition revealed via electron counting,
G. Engelhardt, M. Benito, G. Platero, G. Schaller, and T. Brandes,
Physical Review B Rapid Communications 96, 241404(R) (2017) [39], arXiv:[1707.06096] [40]

Qubit absorption refrigerator at strong coupling
A. Mu, B. K. Agarwalla, G. Schaller, and D. Segal,
New Journal of Physics 19, 123034 (2017) [41], arXiv:[1709.02835] [42]

Initial system-environment correlations via the transfer-tensor method
M. Buser, J. Cerrillo, G. Schaller, and J. Cao
Phys. Rev. A 96, 062122 (2017) [43], arXiv:1709.02310 [44]

Nonadiabatic dynamics of the excited states for the Lipkin-Meshkov-Glick model
W. Kopylov, G. Schaller, and T. Brandes
Phys. Rev. E 96, 012153 (2017) [45], arXiv:1703.06083 [46]

Intensified antibunching via feedback-induced quantum interference
Y. Lu, N. L. Naumann, J. Cerrillo, Q. Zhao, A. Knorr, and A. Carmele
Phys. Rev. A 95, 063840 (2017) [47], arXiv:1703.10028 [48]

Interplay of different environments in open quantum systems: Breakdown of the additive approximation
G. G. Giusteri, F. Recrosi, G. Schaller, and G. L. Celardo
Physical Review E 96, 012113 (2017) [49],arXiv:1612.08341 [50]

Topologically Enforced Bifurcations in Superconducting Circuits
G. Engelhardt, M. Benito, G. Platero, and T. Brandes
PRL 118, 197702 (2017) [51], arxiv:1611.01467 [52]

Quantum and Information Thermodynamics: A Unifying Framework based on Repeated Interactions
P. Strasberg, G. Schaller, T. Brandes, and M. Esposito
Physical Review X 7, 021003 (2017) [53], arxiv:1610.01829 [54]

Feedback-charging a metallic island
G. Schaller
Phys. Stat. Sol. B 1600549 (2017) [55], part of Special Issue on Single-Electron Control in Solid-State Devices,
arXiv [56]

A feedback scheme for control of single electron transport
T. Brandes
Phys. Stat. Sol. B 1600548 (2017) [57], part of Special Issue on Single-Electron Control in Solid-State Devices,
PDF [58]

Thermodynamics and Superradiant Phase Transitions in a three-level Dicke Model
M. Hayn and T. Brandes
Phys. Rev. E 95, 012153 (2017) [59],  arXiv:1610.08051 [60]

Non-equilibrium quantum transport coefficients and the transient dynamics of full counting statistics in the strong coupling and non-Markovian regimes
J. Cerrillo, M. Buser, T. Brandes
Phys. Rev. B 94, 214308 (2016) [61], arXiv:1606.05074 [62]

Driven open quantum systems and Floquet stroboscopic dynamics
S. Restrepo, J. Cerrillo, V. M. Bastidas, D. G. Angelakis, T. Brandes
Phys. Rev. Lett. 117, 250401 (2016) [63], arXiv:1606.08392 [64]

Stochastic thermodynamics based on incomplete information: Generalized Jarzynski equality with measurement errors with or without feedback
C. W. Wächtler, P. Strasberg, T. Brandes
New J. Phys. 18 113042(2016) [65], arXiv:1608.01574 [66]

Strong suppression of shot noise in a feedback-controlled single-electron transistor
T. Wagner, P. Strasberg, J. C. Bayer, E. P. Rugeramigabo, T. Brandes, R. J. Haug
Nature Nanotechnology (2016) [67], arXiv:1602.05466 [68]

Semiclassical bifurcations and topological phase transitions in a one-dimensional lattice of coupled Lipkin-Meshkov-Glick models
A. V. Sorokin, M. Aparicio Alcalde, V. M. Bastidas, G. Engelhardt, D. G. Angelakis, T. Brandes
PRE 94, 032123 (2016) [69], arXiv:1604.08023 [70]

Topological instabilities in ac-driven bosonic systems
G. Engelhardt, M. Benito, G. Platero, T. Brandes
PRL 117, 045302 (2016) [71], arXiv:1512.07653 [72]

Bosonic Josephson effect in the Fano-Anderson model
G. Engelhardt, G. Schaller, T. Brandes
PRA 94, 013608 (2016) [73], arXiv:1604.03777 [74]

Nonequilibrium thermodynamics in the strong coupling and non-Markovian regime based on a reaction coordinate mapping
P. Strasberg, G. Schaller, N. Lambert, T. Brandes
New J. Phys. 18 073007 (2016) [75], arXiv:1602.01340 [76]

Efficient simulation of non-Markovian system-environment interaction
R. Rosenbach, J. Cerrillo, S. F. Huelga, J. Cao, M. B. Plenio
New J. Phys. 18 023035 (2016) [77], arXiv:1510.03100 [78]

Semiclassical excited-state signatures of quantum phase transitions in spin chains with variable-range interactions
M. Gessner, V. M. Bastidas, T. Brandes, A. Buchleitner
PRB 93 155153 (2016) [79], arXiv:1509.08429 [80]

Feedback Control of Waiting Times
T. Brandes, C. Emary
PRE 93 042103 (2016) [81], arXiv:1602.02975 [82]

Stochastic feedback control of quantum transport to realize a dynamical ensemble of two nonorthogonal pure states
S. Daryanoosh, H. M. Wiseman, T. Brandes
PRB 93 085127 (2016) [83], arXiv:1510:08429 [84]

Chimera States in Quantum Mechanics
V. M. Bastidas, I. Omelchenko, A. Zakharova, E. Schöll, and T. Brandes, in Control of Self-Organizing Nonlinear Systems, edited by E. Schöll, S. H. L. Klapp, P. Hövel (Springer, Berlin, Heidelberg, 2016)
http://www.springer.com/in/book/9783319280271 [85]

Controlling the stability of steady states in continuous variable quantum systems
P. Strasberg, G. Schaller T. Brandes, in Control of Self-Organizing Nonlinear Systems, edited by E. Schöll, S. H. L. Klapp, P. Hövel (Springer, Berlin, Heidelberg, 2016)
http://www.springer.com/in/book/9783319280271 [86]
arXiv:1507:02538 [87]

Dissipative Two-Mode Tavis-Cummings Model with Time-Delayed Feedback Control
W. Kopylov, M. Radonjić, T. Brandes, A. Balaž, A. Pelster
PRA 92 063832 (2015) [88],  arXiv:1507.01811 [89]

Quantum signatures of Chimera states
V. M. Bastidas, I. Omelchenko, A. Zakharova, E. Schöll, and T. Brandes
PRE 92 062924 (2015) [90] arXiv:1505.02639 [91]

Thermodynamics of stochastic Turing machines
P. Strasberg, J. Cerrillo, G. Schaller, and T. Brandes
PRE 92 042104 (2015) [92] arXiv:1506.00894 [93]

Steady-state thermodynamics of non-interacting transport beyond weak coupling
G. E. Topp, T. Brandes, and G. Schaller
EPL 110(6) 67003 (2015) [94] arXiv:1504.07412 [95]

Time delayed control of excited state quantum phase transitions in the Lipkin-Meshkov-Glick model
W. Kopylov and T. Brandes
New. J. Phys 17 103031 (2015) [96] arXiv:1505.02060 [97]

Topological Bogoliubov excitations in inversion-symmetric systems of interacting bosons
G. Engelhardt and T. Brandes
Phys. Rev. A 91, 053621 (2015) [98] arXiv:1503.02503 [99]

Feedback between interacting transport channels
T. Brandes
Phys. Rev. E 91, 052149 (2015) [100] arXiv:1503.03672 [101]

Thermodynamics of the polaron master equation at finite bias
T. Krause, T. Brandes, M. Esposito and G. Schaller
J. Chem. Phys. 142, 134106 (2015) , [102]arXiv:1409.6480 [103]

Excited-state quantum phase transitions and periodic dynamics
G. Engelhardt, V. M. Bastidas, W. Kopylov,T. Brandes
Phys. Rev. A 91, 013631 (2015), [104]arXiv:1405.3514 [105]

Time-delayed feedback control of the Dicke–Hepp–Lieb superradiant quantum phase transition
W. Kopylov, C. Emary, E. Schöll, T. Brandes
New J. Phys. 17, 013040 (2015), [106]arXiv:1403.0620 [107]

Critical quasienergy states in driven many-body systems
V. M. Bastidas, G. Engelhardt, P. Perez-Fernandez, M. Vogl, and T. Brandes
Phys. Rev. A 90, 063628 (2014), [108] arXiv:1410.5281 [109]

Relaxation dynamics of meso-reservoirs
G. Schaller, C. Nietner, T. Brandes
New. J. Phys. 16, 125001 (2014), [110] arXiv:1409.5311 [111]

The Second Laws for an Information driven Current through a Spin Valve
P. Strasberg, G. Schaller, T. Brandes, and C. Jarzynski
Phys. Rev. E 90, 062107 (2014), [112] arXiv:1407.7679 [113]

Floquet engineering of long-range p-wave superconductivity
M. Benito, A. Gómez-León, V. M. Bastidas, T. Brandes, and G. Platero
Phys. Rev. B 90, 205127 (2014), [114] arXiv:1409.0546 [115]

Quantum phase transitions in networks of Lipkin-Meshkov-Glick models
A. Sorokin, V. M. Bastidas, and T. Brandes
Phys. Rev. E 90, 042141 (2014), [116] arXiv:1407.2530 [117]

Semiclassical spin-spin dynamics and feedback control in transport through a quantum dot
K. Mosshammer and T. Brandes
Phys. Rev. B 90, 134305 (2014), [118] arXiv:1404.5831 [119]

Nonequilibrium relaxation transport of ultracold atoms
F. G. Marcos, G. Platero, C. Nietner, G. Schaller, and T. Brandes
Phys. Rev. A 90 033614 (2014), [120] arXiv:1407.2804 [121]

Transport as a sensitive indicator of quantum criticality
G. Schaller, M. Vogl, T. Brandes
J. Phys. C 26 265001 (2014), [122]arXiv:1403.7611 [123]

Quantum Criticality and Dynamical Instability in the Kicked-Top Model
V. M. Bastidas, P. Perez-Fernandez, M. Vogl, T. Brandes
Phys.Rev.Lett. 112 140408 (2014), [124]arXiv:1308.5640 [125]

Transport with ultracold atoms at constant density
C. Nietner, G. Schaller, T. Brandes
Phys.Rev.A 89 013605 (2014), [126]arXiv:1309.3488 [127]

Thermodynamics of quantum-jump-conditioned feedback control
P. Strasberg, G. Schaller, T. Brandes, M. Esposito 
Phys.Rev.E 88 062107 (2013) [128]arXiv:1305.6589 [129]

Delayed feedback control in quantum transport
Clive Emary
Phil. Trans. R. Soc. A 371, 1999 (2013) [130], arXiv:1207.2910 [131]

Excited-State Quantum Phase Transitions in Dicke Superradiance Models
Tobias Brandes
Phys.Rev.E 88 032133 (2013) [132], arXiv:1306.6435 [133]

Non-equilibrium correlations and entanglement in a semiconductor hybrid circuit-QED system
L. D. Contreras-Pulido, C. Emary, T. Brandes, R. Aguado
New J. Phys. 15,095008 (2013) [134], arXiv:1304.7192 [135]

Lasing and antibunching of optical phonons in semiconductor double quantum dots
Rin Okuyama, Mikio Eto, Tobias Brandes
New J. Phys. 15, 083032 (2013) [136], arXiv:1305.2056 [137]

Implementation of stimulated Raman adiabatic passage in degenerate systems by dimensionality reduction
G. Bevilacqua, G. Schaller, T. Brandes, F. Renzoni
Phys.Rev.A 88, 013404 (2013.) [138]arXiv:1307.0205 [139]

Phonon Laser Effect and Dicke-Hepp-Lieb Superradiant Phase Transition in Magnetic Cantilever Coupled to a Bose Einstein Condensate
A. B. Bhattacherjee, T. Brandes
Canadian Journal of Physics 91, 639 (2013) [140], arXiv:1209.3244 [141]

AC-driven Quantum Phase Transition in the Lipkin-Meshkov-Glick Model
G. Engelhardt, V. M. Bastidas, C. Emary, and T. Brandes
Phys.Rev.E 87, 052110 (2013) [142], arXiv:1211.2683 [143]

Single electron transistor strongly coupled to vibrations: Counting Statistics and Fluctuation Theorem

G. Schaller, T. Krause, T. Brandes, and M. Esposito
New J. Phys. 15, 033032 (2013) [144], arXiv:1206.3960 [145]

Counting statistics of the Dicke superradiance phase transition
W. Kopylov, C. Emary and T. Brandes
Phys.Rev.A 87.043840(2013) [146], arXiv:1301.2973 [147]

Thermodynamics of a physical model implementing a Maxwell demon
P. Strasberg, G. Schaller, T. Brandes, and M. Esposito
Phys. Rev. Lett. 110, 040601 (2013), [148] arXiv:1210.5661 [149]

A diagrammatic description of the equation of motion, current, and noise within the second-order von Neumann approach
O. Karlström, C. Emary, P. Zedler, J. N. Pedersen, C. Bergenfeldt, P. Samuelsson, T. Brandes, and A. Wacker
J. Phys. A: Math. Theor. 46, 065301 (2013) [150], arXiv:1206.1744 [151]

Spin entangled two-particle dark state in quantum transport through coupled quantum dots
Christina Pöltl, Clive Emary, and Tobias Brandes
Phys. Rev. B 87, 045416 (2013) [152] , arXiv:1209.0992 [153]

Optical Phonon Lasing in Semiconductor Double Quantum Dots
Rin Okuyama, Mikio Eto, and Tobias Brandes
J. Phys. Soc. Jpn. 82, [154]013704 (2013) [155], arXiv:1205.6955 [156]

Nonequilibrium Quantum Phase Transitions in the Ising Model
V. M. Bastidas, C. Emary, G. Schaller, and T. Brandes
Phys. Rev. A 86, 063627 (2012), [157] arXiv:1207.5242 [158]

Reverse quantum state engineering using electronic feedback loops
Gerold Kiesslich, Clive Emary, Gernot Schaller, and Tobias Brandes
New J. Phys. 14, [159]123036 [160] (2012), [161]   arXiv:1209.1226 [162]

Transport through single-level systems: spin-dynamics in the nonadiabatic regime
A. Metelmann and T. Brandes
Phys. Rev. B 86, 245317 (2012), [163]  arXiv:1208.4574 [164]

Superradiant phase transition in a model of three-level-lambda systems interacting with two bosonic modes
M. Hayn, C. Emary, T. Brandes
Phys.Rev. A 86, 063822 (2012), [165] arXiv:1209.3121 [166]

Criticality in transport through the quantum Ising chain
Malte Vogl, Gernot Schaller, Tobias Brandes
Phys. Rev. Lett. 109, 240402 (2012) [167], arXiv:1208.5989 [168]

Transport and semiclassical dynamics of coupled quantum dots interacting with a local magnetic moment
Klemens Mosshammer, Gerold Kiesslich, and Tobias Brandes
Phys. Rev. B 86, 165447 (2012) [169], arXiv:1206.5994 [170]

Equation of motion method for Full Counting Statistics: Steady state superradiance
Malte Vogl, Gernot Schaller, Eckehard Schöll, and Tobias Brandes
Phys.Rev. A 86, 033820 (2012), [171] arXiv:1206.4149 [172]

Stochastic thermodynamics for "Maxwell demon" feedbacks
M. Esposito and G. Schaller
EPL 99, 30003 (2012) [173], arXiv:1204.5671 [174]

Leggett-Garg inequalities for the statistics of electron transport
C. Emary
Phys. Rev. B 86, 085418 (2012) [175], arXiv:1203.4922 [176]

Optically Driven Quantum Dots as Source of Coherent Cavity Phonons: A Proposal for a Phonon Laser Scheme
Julia Kabuss, Alexander Carmele, Tobias Brandes, and Andreas Knorr
Phys. Rev. Lett. 109, 054301 (2012) [177]

Thermal phase transitions for Dicke-type models in the ultra-strong coupling limit
M. Aparicio Alcalde, M. Bucher, C. Emary, and T. Brandes
Phys. Rev. E 86, 012101 (2012) [178], arXiv:1204.2271 [179]

Fighting decoherence by feedback-controlled dissipation
G. Schaller
Phys. Rev. A 85, 062118 (2012) [180], arXiv:1203.4977 [181]

Dynamics of interacting transport qubits
Christian Nietner, Gernot Schaller, Christina Pöltl, and Tobias Brandes
Phys. Rev. B 85, 245431 (2012) [182], arXiv:1204.2978 [183]

Bunching and anti-bunching in electronic transport
C. Emary, C. Pöltl, A. Carmele, J. Kabuss, A. Knorr, and T. Brandes
Phys. Rev. B 85, 165417 (2012) [184], arXiv:1201.6323 [185]

Non-equilibrium Quantum Phase Transitions in the Dicke Model
V. Bastidas, C. Emary, B. Regler, and T. Brandes
Phys. Rev. Lett. 108, 043003 (2012) [186], arXiv:1108.2987 [187]

Limit-Cycles and Chaos in the Current through a Quantum Dot
C. Lopez-Monis, C. Emary, G. Kiesslich, G. Platero, and T. Brandes
Phys. Rev. B 85, 045301 (2012) [188], arXiv:1104.3995 [189]

Noise calculations within the second-order von Neumann approach
P. Zedler, C. Emary, T. Brandes, and T. Novotny
Phys. Rev. B 84, 233303 (2011) [190] Or arXiv:1110.3253 [191]

Phase transitions and dark-state physics in two-color superradiance
Mathias Hayn, Clive Emary, and Tobias Brandes
Phys. Rev. A 84, 053856 (2011) [192] Or arXiv:1109.2456 [193]

Incomplete current fluctuation theorems for a four-terminal model
T. Krause, G. Schaller, and T. Brandes
Phys. Rev. B 84, 195113 (2011) [194] Or arXiv:1109.1793 [195]

Adiabaticity in semiclassical nanoelectromechanical systems
A. Metelmann and T. Brandes
Phys. Rev. B 84, 155455 (2011) [196] Or arXiv:1107.3762 [197]

Probing the Power of an Electronic Maxwell's Demon
G. Schaller, C. Emary, G. Kiesslich, and T. Brandes
Phys. Rev. B 84, 085418 (2011) [198] Or arXiv:1106.4670 [199]

Feedback stabilization of pure states in quantum transport
C. Pöltl, C. Emary, and T. Brandes
Phys. Rev. B 84, 085302 (2011) [200] Or arXiv:1103.2710 [201]

Random backaction in tunneling of single electrons through nanostructures
M. Schubotz and T. Brandes
Phys. Rev. B 84, 075340 (2011) [202] Or arXiv:1105.4422 [203]

Charge Qubit Purification by an Electronic Feedback Loop
G. Kiesslich, G. Schaller, C. Emary, and T. Brandes
Phys. Rev. Lett. 107, 050501 (2011) [204] Or arXiv:1102.3771 [205]

Counting statistics of collective photon transmissions
M. Vogl, G. Schaller, and T. Brandes
Ann. Phys. (N.Y.) 326, 2827 (2011) [206] Or arXiv:1010.4416 [207]

Non-Markovian effects in the quantum noise of interacting nanostructures
D. Marcos, C. Emary, T. Brandes, and R. Aguado
Phys. Rev. B 83, 125426 (2011) [208] Or arXiv:1006.5586 [209]

Finite-frequency counting statistics of electron transport: Markovian Theory
D. Marcos, C. Emary, T. Brandes, and R. Aguado
New J. Phys. 12, 123009 (2010) [210] or arXiv:1004.1572
[211]

Semi-classical dynamics of nano-electromechanical systems
R. Hussein, A. Metelmann, P. Zedler, T. Brandes
Phys. Rev. B 82, 165406 (2010) [212] or arXiv:1006.2076 [213]

Feedback Control of Quantum Transport
Tobias Brandes
Phys. Rev. Lett. 105, 060602 (2010) [214] or arXiv:1005.0018 [215]

Quantum impurity models with the Coupled Cluster Method
Jin-Jun Liang, Clive Emary, and Tobias Brandes
Commun.Theor.Phys. 54, 509 (2010) [216] or arXiv:0906.4684 [217]

Low-dimensional detector model for full counting statistics: Trajectories, back-action, and fidelity
Gernot Schaller, Gerold Kiesslich, and Tobias Brandes
Phys. Rev. B 82, 041303(R) (2010) [218] or arXiv:1004.2604 [219]

Counting statistics in multistable systems
Gernot Schaller, Gerold Kiesslich, and Tobias Brandes
Phys. Rev. B 81, 205305 (2010) [220] or arXiv:0912.2887 [221]

Entanglement and parametric resonance in driven quantum systems
V. M. Bastidas, J. H. Reina, C. Emary, and T. Brandes
Phys. Rev. A 81, 012316 (2010) [222] or arXiv:0904.2411 [223]

The speed of Markovian relaxation towards the ground state
Malte Vogl, Gernot Schaller, and Tobias Brandes
Phys. Rev. A 81, 012102 (2010) [224] or arXiv:0906.4684 [225]

Three-level mixing and dark states in transport through quantum dots
Clive Emary, Christina Pöltl, and Tobias Brandes
Phys. Rev. B 80, 235321 (2009) [226] or arXiv:0908.33935 [227]

Transport Statistics of interacting double dot systems: Coherent and Non-Markovian effects
Gernot Schaller, Gerold Kiesslich, and Tobias Brandes
Phys. Rev. B 80, 245107 (2009) [228] or arXiv:0908.3620 [229]

Master equations for quantum transport with Franck-Condon blockade
Hannes Hübener, and Tobias Brandes
Phys. Rev. B 80, 155437 (2009) [230]

Single Spin Transport Spectroscopy: Current Blockade and Spin Decay
Gerold Kiesslich, Gernot Schaller, Clive Emary, and Tobias Brandes
Appl. Phys. Lett. 95, 152104 (2009) [231] or arXiv:0906.1986 [232]

Two-Particle Dark State in the Transport through a Triple Quantum Dot
Christina Pöltl, Clive Emary, and Tobias Brandes
Phys. Rev. B 80, 115313 (2009) [233] or arXiv:0905.2087 [234]

Universal oscillations in counting statistics
Christian Flindt, Christian Fricke, Frank Hohls, Tomas Novotny, Karel Netocny, Tobias Brandes, and Rolf J. Haug
Proc. Natl. Acad. Sci. U.S.A. 106, 10116 (2009) [235] or arXiv:0901.0832 [236]

Non-equilibrium entanglement in a driven many-body spin-boson model
Viktor M. Bastidas, John H. Reina, and Tobias Brandes
Journal of Physics: Conference Series 167, 012063 (2009) [237] Or [pdf] [238]

Weak coupling approximations in non-Markovian transport
Philipp Zedler, Gernot Schaller, Gerold Kiesslich, Clive Emary, and Tobias Brandes
Phys. Rev. B 80, 045309 (2009) [239] or arXiv:0902.2118 [240]

Systematic Perturbation Theory for Dynamical Coarse-Graining
Gernot Schaller, Philipp Zedler, and Tobias Brandes
Phys. Rev. A 79, 032110 (2009) [241] or [pdf] [242]

Advanced control with a Cooper-pair box: Stimulated Raman adiabatic passage and Fock-state generation in a nanomechanical resonator
Jens Siewert, Tobias Brandes, and G. Falci
Phys. Rev. B 79, 024504 (2009) [243] or [pdf] [244]

Quantum-dot exciton dynamics with a surface plasmon: Band-edge quantum optics Y. N. Chen, G. Y. Chen, D. S. Chuu, and T. Brandes
Phys. Rev. A 79, 033815 (2009) [245]

Preservation of Positivity by Dynamical Coarse-Graining
Physical Review A 78, 022106 (2008), Gernot Schaller, and Tobias Brandes [pdf] [246]

Waiting Times and Noise in Single Particle Transport
Ann. Phys. (Berlin) 17, No 7, 477-496 (2008), Tobias Brandes [cond-mat/08022233], [247] [pdf] [248]

Phonon emission in two levels quantum dots
Physica E 90, (2008) 1157-1159, Rafael Sanchez, Gloria Platero, and Tobias Brandes [pdf] [249]

Resonance fluorescence in driven quantum dots: Electron and photon correlations
Physical Review B 78, 125308 (2008), Rafael Sanchez, Gloria Platero, and Tobias Brandes [pdf] [250]

Vibrational Coherences in Nano-Elastic Tunneling
Phys. Rev. Lett. 99, 247206 (2007) Hannes Hübener, and Tobias Brandes [cond-mat/07052728], [pdf] [251]
[252]
Noise enhancement due to quantum coherence in coupled quantum dots
Phys. Rev. Lett. 99, 206602 (2007) G. Kiesslich, E. Schoell, T. Brandes, F. Hohls, and R. J. Haug [cond-mat/07061737], [253][pdf] [254]
[255]
Resonance Fluorescence in Transport through Quantum Dots: Noise Properties
Phys. Rev. Lett. 98, 146805 (2007) R. Sanchez, G. Platero, and T. Brandes
[pdf] [256]

Frequency-dependent counting statistics in interacting nanoscale conductors
Phys. Rev. B 76, 161404(R) (2007) C. Emary, D. Marcos, R. Aguado, and T. Brandes [cond-mat/0703781] [257], [pdf] [258]

Nonequilibrium Entanglement and Noise in coupled Qubits
Phys. Rev. B 75, 045340 (2007) N. Lambert, R. Aguado, and T.Brandes
[pdf] [259] [cond-mat/0602063] [260]

Entanglement detection via the condition of quantum correlation
Phys. Rev. A 76, 032313 (2007) C.M. Li, L.Y. Hsu, Y.N. Chen, D.S. Chuu, and T. Brandes
[pdf] [261]

Adiabatic passage with superconducting nanocircuits
Opt. Commun. 264, 435 (2006), J. Siewert, T. Brandes, and G. Falci
[pdf] [262] [263]

Transport through coupled quantum dots
Physica Status Solidi B 243, 2293 (2006), T. Brandes
[pdf] [264]

Spin relaxation in a GaAs quantum dot embedded inside a suspended phonon cavity
Phys. Rev. B 73, 085310 (2006), Y. Y. Liao, D. S. Chuu, Y. N. Chen, and T. Brandes
[pdf] [265][cond-mat/0509568] [266]

Coherent and Collective Quantum Optical Effects in Mesoscopic Systems 160 pages, 57 figures.
Physics Reports 408/5-6, pp. 315-474 (2005), T. Brandes   [html] [267]   [cond-mat/0409771] [268]   [pdf] [269]

Advanced control with a Cooper-pair box: stimulated Raman adiabatic passage and Fock-state generation in a nano-mechanical resonator
submitted to Phys. Rev. Lett., J. Siewert, T. Brandes, and G. Falci [cond-mat/0509735]

Current noise of a quantum dot p-i-n junction in a photonic crystal
Phys. Rev. B 72, 153312 (2005), Y. N. Chen, D. S. Chuu, and T. Brandes [pdf] [270]

Current Noise Spectrum of Open Charge Qubits
AIP Conf. Proc. 780, 413 (2005), R. Aguado, N. Lambert, and T. Brandes

Dynamics of a Large Spin with Strong Dissipation
Phys. Rev. Lett. 95, 070402 (2005), T. Vorrath, and T. Brandes [pdf] [271]

Entanglement in quantum catastrophes
Phys. Rev. A 71, 062302 (2005), C. Emary, N. Lambert, and  T. Brandes  [quant-ph/0503160 [272]] [273][pdf] [274]

Proposal for teleportation of charge qubits via superradiance
New Journ. Phys. 7, 172 (2005), Y .N. Chen, C. M. Li, D.S. Chuu, and T. Brandes  [cond-mat/0502412] [275]

Entanglement and entropy in a spin-boson quantum phase transition
Phys. Rev. A 71, 053804 (2005), N. Lambert, C. Emary, and T. Brandes [quant-ph/040510 [276]9]] [277] [pdf] [278]

Current fluctuation spectrum in dissipative solid-state qubits  
Eur. Phys. J. B  40, 357 (2004), R. Aguadom, and T. Brandes [pdf] [279]

Shot Noise Spectrum of Open Dissipative Quantum Two-Level Systems
Phys. Rev. Lett. 92, 206601 (2004), R. Aguado, and T. Brandes  [cond-mat/0310578] [280]   [pdf [281]]

Application of adiabatic passage in solid-state devices
Advances in Solid State Physics  44 (Ed. B. Kramer), Springer, Heidelberg (2004), p. 181,  J. Siewert, and T. Brandes   [pdf] [282]

Phase Transitions in Generalised Spin-Boson (Dicke) Models
Phys. Rev.  A 69, 053804 (2004), C. Emary, T. Brandes  [quant-ph/0401029] [283]    [284][pdf] [285]

Effects of cavity and superradiance on the electrical transport through quantum dots
In "Progress in Quantum Dot Research", Nova Science Publishers (2004, to appear), Y. N. Chen, D. S. Chuu, and T. Brandes  [cond-mat/0401312] [286]

Entanglement and the Phase Transition in Single Mode Superradiance
Phys. Rev. Lett.  92, 073602 (2004), N. Lambert, C. Emary, and T. Brandes [quant-ph/0309027] [287]  [288]  [pdf] [289]

Single electron-phonon interaction in a suspended quantum dot phonon cavity
Phys. Rev. Lett.  92, 046804 (2004), E. M. Weig, R. H. Blick, T. Brandes, J. Kirschbaum, W. Wegscheider, M. Bichler, and  J. P. Kotthaus  [cond-mat/0304136] [290][pdf] [291]

Charge Transport Through Open, Driven Two-Level Systems with Dissipation
Phys. Rev.  B 69, 205326 (2004) , T. Brandes, R. Aguado, and G. Platero  [pdf] [292][cond-mat/0304136]
[293]
Dynamics of a Large Spin with Weak Dissipation
Chemical Physics 296, 295 (2004), T. Vorrath, T. Brandes, and B. Kramer  (The Spin-Boson Problem: From Electron Transfer to Quantum Computing ... to the 60th Birthday of Professor Ulrich Weiss)  [quant-ph/0312140] [294]    [pdf [295]]

Shot noise spectrum of superradiant entangled excitons
Phys. Rev.  B  69, 245323 (2004),  Y. N. Chen, T. Brandes, C.M. Lim, and D. S. Chuu [cond-mat/0311615] [296] [pdf] [297]

Matrix perturbation theory for driven three-level systems with damping
Annalen der Physik 13, 569 (2004), B. Sanchez, and T. Brandes  [pdf] [298]

Fluctuation induced effects in confined electrolyte solutions
T. Brandes, and L. Lue [cond-mat/0311375] [299]

Boson Cavities: From Electronic Transport to Quantum Chaos
Advances in Solid State Physics 43, pp.63-78 , Ed. B. Kramer, Springer (Berlin, Heidelberg, New York 2003),  invited contribution;  T. Brandes  [pdf [300]]

Chaos and the Quantum Phase Transition in the Dicke Model
Phys. Rev. E  67, 066203 (2003); C. Emary, and T. Brandes [cond-mat/0301273] [301] [pdf] [302]

Quantum Chaos Triggered by Precursors of a Quantum Phase Transition: The Dicke Model
Phys. Rev. Lett. 90, 044101 (2003); C. Emary, and T. Brandes [cond-mat/0207290] [303] [pdf] [304]

Current Detection of Superradiance and Induced Entanglement of Double Quantum Dot Excitons
Phys. Rev.  Lett. 90 , 166802 (2003);  Y. N. Chen, D. S. Chuu, and T. Brandes  [cond-mat/0212234] [305] [pdf] [306]

Steering of a Bosonic Mode with a Double Quantum Dot
Phys. Rev.  B 67, 125323 (2003); T. Brandes, and N. Lambert  [pdf] [307][cond-mat/0302265] [308]

Dicke Effect in the Tunnel Current Through Two Double Quantum Dots
Phys. Rev.  B 68 035309 (2003); T. Vorrath, and T. Brandes [pdf] [309]

Transmission Through a Quantum Dynamical Delta Barrier
Phys. stat. sol. (b) 234, 247206 (2007), No.1, 378 (2002, invited contribution to Festschrift on the occasion of the 60th Birthday of R. Zimmermann); T. Brandes, and J. Robinson [pdf] [310] [cond-mat/0212527] [311]

Chaos and Phase Transitions in Quantum Dots Coupled to Bosons
in: Physics of Semiconductors 2002, Proceedings of the 26th ICPS, Edinburgh, 29.7-2.8.2002, IoP Conference Series 171, Ed. A R Long and J. H. Davies, IoP (Bristol, Philadelphia), H138 (6 pages);  C. Emary, and T. Brandes  [pdf] [312]

Adiabatic Steering of Quantum Dot Based Qubits
in: Physics of Semiconductors 2002, Proceedings of the 15th SemiMag,  Oxford, 5.8-9.8. 2002, IoP Conference Series 171, Ed. A R Long and J. H. Davies, IoP (Bristol, Philadelphia), C43 (6 pages); T. Brandes [pdf] [313]

Phonon Cavity Models for Quantum Dot Based Qubits
in: Physics of Semiconductors 2002, Proceedings of the 26th ICPS, Edinburgh, 29.7-2.8.2002, IoP Conference Series 171, Ed. A R Long and J. H. Davies, IoP (Bristol, Philadelphia), D197 (8 pages);  T. Vorrath, S. Debald,  B. Kramer, and T. Brandes  [pdf] [314][cond-mat/0208493] [315]

Adiabatic Transfer of Electrons in Coupled Quantum Dots
Phys. Rev.  B  66, 075341  (2002);  T. Brandes, and T. Vorrath  [cond-mat/0207257] [316]

Control of Dephasing and Phonon Emission in Coupled Quantum Dots
Phys. Rev. B (Rapid Comm.) 66, 041301(R)  (2002),  S. Debald, T. Brandes, and  B. Kramer [cond-mat/0204444] [317][pdf] [318]

Charge transport through quantum dots via time-varying tunnel couplings
Phys. Rev. B 64, 245301 (2001),  F. Renzoni, T. Brandes [cond-mat/0109335] [319][pdf] [320]

Dissipation in open two-level systems: perturbation theory and polaron transformation
 in `Recent Progress in Many-Body Theory MB11', ed. R. Bishop, T. Brandes, K. Gernoth, N. Walet, and Y. Xian; World Scientific (Singapore), 2002; T. Brandes, and T. Vorrath  [cond-mat/0207256] [321][pdf] [322]

Nonlinear electron transport through double quantum dots coupled to confined phonons
in `Recent Progress in Many-Body Theory MB11', ed. R. Bishop, T. Brandes, K. Gernoth, N. Walet, and Y. Xian; World Scientific (Singapore), 2002; S. Debald, T. Brandes, and B. Kramer [pdf] [323]

Dynamics of a large-spin-boson system in the strong coupling regime
 in `Recent Progress in Many-Body Theory MB11', ed. R. Bishop, T. Brandes, K. Gernoth, N. Walet, and Y. Xian; World Scientific (Singapore), 2002; T. Vorrath, T. Brandes, and B. Kramer  [cond-mat/0111220] [324]

Adiabatic steering and determination of dephasing rates in double-dot qubits
Phys. Rev.  B  64, 035319 (2001) ; T. Brandes, F. Renzoni, and R. H. Blick [pdf] [325]

Quantum optics in transport:  Dicke effect and dark resonances in dots and wires
Review Article (21 pages) in: Interacting Electrons in Nanostructures (Springer Lecture Notes in Physics, ed: R. Haug and H. Schoeller, 2001);  T. Brandes [ps.gz] [326]

Phonons and phonon confinement in transport through double quantum dots
Proc. Int. Conf. Phys. Semicond., Osaka 2000 ( Springer Proceedings in Physics 87, 1049, ed: N. Miura, T. Ando, 2000); S. Debald, T. Vorrath, T. Brandes, and B. Kramer [ps] [327]

Current switch by coherent trapping of electrons in quantum dots
Phys. Rev. Lett. 85, 4148 (2000); T. Brandes, and F. Renzoni. [pdf] [328]

Dicke effect and spontaneous emission in coupled quantum dots
Physica B  284-288, 1774 (2000); T. Brandes, and B. Kramer.  [ps] [329]

Phonon emission from coupled quantum dots
Physica B 272, 42 (1999); T. Brandes, and B. Kramer. [pdf] [330]

Spontaneous emission of phonons by coupled quantum dots
Phys. Rev. Lett. 83, 3021 (1999).; T. Brandes, and B. Kramer  [pdf] [331][cond-mat/9908397] [332].

Dicke Superradiance in a magnetoplasma
Physica B 272, 341 (1999); T. Brandes, J. Inoue, and A. Shimizu.  [pdf] [333][cond-mat/9908448] [334].

Dicke superradiance in electronic systems coupled to reservoirs
In: The physics of Semiconductors-24th ICPS, edited by D. Gershoni (World Scientific, Singapore, 1999); T. Brandes, J. Inoue, A. Shimizu. [ps] [335][cond-mat/9908447] [336].

Oscillatory behavior of a superradiating system coupled to electron reservoirs
Phys. Rev. Lett. 80, 3952 (1998); T. Brandes, J. Inoue, and A. Shimizu [pdf] [337][cond-mat/9803133] [338].

Decay rate and renormalized frequency shift of a quantum wire Wannier exciton in a planar microcavity
Phys. Rev.  B  64, 125307 (2001) ; Yueh-Nan Chen, Der-San Chuu, T. Brandes, B. Kramer. [pdf] [339]

Renormalized versus unrenormalized interactions of excitons in a quantum well
Journ. Lumin. 87,244 (2000); J. Inoue, T. Brandes, and A. Shimizu.

Renormalized Bosonic Interaction of Excitons
Phys. Rev. B 61, 2863 (2000); J. Inoue, T. Brandes, and A. Shimizu. [pdf] [340][cond-mat/9905085] [341]

New superconducting phase in a two-component Fermion system
Physica B  284, 443 (2000); T. Brandes, M. Shigemori, A. Shimizu, and J. Inoue.  [ps] [342]

Strong enhancement of superconducting correlation in a two-component fermion gas
J. Phys. Soc. Jap. Letters 68, 2194  (1999); M. Shigemori, A. Shimizu, T. Brandes, and J. Inoue.  [pdf] [343][cond-mat/9902079] [344]

Effective Hamiltonian for Excitons with Spin Degrees of Freedom
J. Phys. Soc. Jap. Letters 67, 3384  (1998); J. Inoue, T. Brandes, and A. Shimizu. [pdf] [345][cond-mat/9809026] [346]

Potential scattering and screening in time-dependent fields
In: The physics of Semiconductors-24th ICPS, edited by D. Gershoni (World Scientific, Singapore, 1999); T. Brandes, M. Sassetti, and B. Kramer. [ps] [347]

Static potential renormalization in time-dependent fields
Annalen der Physik 7, 120 (1998); T. Brandes.  [ps [348],figures(zip) [349]]

Truncation method for Green's functions in time-dependent fields
Phys. Rev. B 56, 1213 (1997); T. Brandes [pdf] [350][ps(zip)] [351][cond-mat/9704097] [352]

Corrections to the Drude conductivity in systems under microwave irradiation
in Quantum Transport in Semiconductor Submicron structures, 291, 353 (1996),
Ed. by B. Kramer, North-Holland, Kluwer Academic Publishers;  T. Brandes.

Boltzmann equation approach for transport in systems subject to microwave irradiation
Europhy. Lett. 33(8), 629(1996); T. Brandes [cond-mat/9512100] [353].

Frequency dependent conductance of  tunnel junctions
Europhy. Lett. 22, 51 (1993); T. Brandes, D. Weinmann, B. Kramer.

A note on dephasing and pairbreaking
Z. Phys. B 87, 89 (1992); W. Zwerger, T. Brandes.

Interaction Effects in Multi-Subband Quantum Wires
J. Phys. Soc. Jap. Letters 65, 3712 (1996); A. Kawabata, and T. Brandes [cond-mat/9610211] [354][dvi] [355]

Conductance increase by electron-phonon interaction in quantum wires
Phys. Rev. B 54, 4444(1996); T. Brandes, and A. Kawabata [cond-mat/9604159] [356].

Electron-Phonon Interaction in the Transport Properties of Quantum Wires
Europhys. Lett.  29, 481(1995), J. Wrobel, T. Brandes, F. Kuchar, B. Kramer, K. Ismail, K.Y. Lee, H. Hillmer, W. Schlapp, and T. Dietl.

Electron-phonon scattering in quantum wires in a magnetic field
Proc. 22th ICPS (ed. D.J. Lockwood, World Scientific) (1994); T. Brandes, and B. Kramer.

Interaction and transport in Nanostructures
Semicond. Sci. and Techn. 9, 1871 (1994)   B. Kramer, T. Brandes, W. Haeusler, K. Jauregui, and D. Weinmann.

Crossover for acoustical phonon scattering in quantum wires
Solid St. Comm. 88, 773 (1993); T. Brandes, and B. Kramer.

Critical dynamics and multifractal exponents at the Anderson transition in 3d disordered systems
Annalen der Physik 5, 633 (1996); T. Brandes, B. Huckestein, and L. Schweitzer [cond-mat/9605062] [357].

Temperature-dependent broadening of $rho_xx$-peaks and inelastic scattering in the integer quantum Hall effect
Physica B 216, 369 (1996); T. Brandes, L Schweitzer, and B. Kramer.

Inelastic scattering, multifractality, and scaling in the integer quantum Hall effect
Phys. Rev. B 52, 8391 (1995); T. Brandes.

Scaling and inelastic scattering in the integer quantum Hall effect
Nato ASI Series E (ed. H. Caldeira et al), 291, 115 (1994); T. Brandes, L Schweitzer, and B. Kramer.

Scaling and temperature-dependent broadening of the $rho_xx$-peaks in the IQHE
Proc. 11th Int. Conf. High Magnetic fields (World Scientific, 1994); T. Brandes, L Schweitzer, and B. Kramer.

Multifractal wave functions and inelastic scattering in the integer quantum Hall effect
Phys. Rev. Lett. 72, 3582 (1994); T. Brandes, L Schweitzer,and  B. Kramer.

The Dicke Effect in Electronic Systems
T. Brandes, (Habilitation Thesis, University of Hamburg  2000, 188 pages)    [pdf] [358]

Aspects of Inelastic Processes in Quantum Transport
T. Brandes, PhD Thesis, University of Hamburg, Germany, PTB-Bericht 1994, ISBN 3-89429-556-2.

Low-Dimensional Systems: Interactions and Transport Properties
Lecture Notes in Physics (ed. T. Brandes), Springer, Heidelberg 2000.

Anderson Localization and Its Ramifications
Lecture Notes in Physics 630 (ed. T. Brandes, S. Kettemann), Springer, Heidelberg 2003.