Publications

Preprints

• S. Czischek, A. Baumbach, S. Billaudelle, B. Cramer, L. Kades, J. M. Pawlowski, M. K. Oberthaler, J. Schemmel, M. A. Petrovici, T. Gasenzer, and M. Gärttner
  Spiking neuromophic chip learns entangled quantum states
  arXiv:2008.01039 [cs.ET]
• A. Signoles, T. Franz, R. Ferracini Alves, M. Gärttner, S. Whitlock, G. Zürn, M. Weidemüller
  Observation of glassy dynamics in a disordered quantum spin system
  arXiv:1909.11959 [quant-ph]

Publications in peer reviewed journals

• Marcel Neugebauer, Laurin Fischer, Alexander Jäger, Selim Jochim, M. Weidemüller, and M. Gärttner
  Neural network quantum state tomography in a two-qubit experiment
  Phys. Rev. A 102, 042604 (2020)
  arXiv:2007.16185 [quant-ph]
   
• Michael Rautenberg and Martin Gärttner 
  Classical and quantum chaos in a three-mode bosonic system
  Phys. Rev. A 101, 053604 (2020)
  arXiv:1907.04094 [quant-ph]
   
• Stefanie Czischek, Jan M. Pawlowski, Thomas Gasenzer, and Martin Gärttner 
  Sampling scheme for neuromorphic simulation of entangled quantum systems
  Phys. Rev. B 100, 195120 (2019)
  arXiv:1907.12844 [quant-ph]
   
• Martin Gärttner, Arghavan Safavi-Naini, Johannes Schachenmayer, and Ana Maria Rey 
  Doublon dynamics of Bose-Fermi mixtures in optical lattices
  Phys. Rev. A 100, 053607 (2019)
  arXiv:1908.04757 [cond-mat.quant-gas]
   
• Philipp Kunkel, Maximilian Prüfer, Stefan Lannig, Rodrigo Rosa-Medina, Alexis Bonnin, Martin Gärttner, Helmut Strobel, Markus K. Oberthaler 
  Simultaneous Readout of Noncommuting Collective Spin Observables beyond the Standard Quantum Limit
  Phys. Rev. Lett. 123, 063603 (2019)
  arXiv:1904.01471 [cond-mat.quant-gas]
   
• S. Czischek, M. Gärttner, M. Oberthaler, M. Kastner, T. Gasenzer
  Quenches near criticality of the quantum Ising chain - power and limitations of the discrete truncated Wigner approximation
  Quantum Sci. Technol. 4, 014006 (2018)
  arXiv:1805.05221 [quant-ph]
   
• S. Czischek, M. Gärttner, T. Gasenzer
  Quenches near Ising quantum criticality as a challenge for artificial neural networks
  Phys. Rev. B 98, 024311 (2018)
  arXiv:1803.08321 [quant-ph]
   
• A. Safavi-Naini, R. J. Lewis-Swan, J. G. Bohnet, M. Gärttner, K. A. Gilmore, E. Jordan, J. Cohn, J. K. Freericks, A. M. Rey, J. J. Bollinger
  Exploring adiabatic quantum dynamics of the Dicke model in a trapped ion quantum simulator
  Phys. Rev. Lett. 121, 040503 (2018)
  arXiv:1711.07392 [quant-ph]
   
• J. Cohn, A. Safavi-Naini, R. J. Lewis-Swan, J. G. Bohnet, M. Gärttner, K. A. Gilmore, J. E. Jordan, A. M. Rey, J. J. Bollinger and J. K. Freericks 
  Bang-bang shortcut to adiabaticity in the Dicke model as realized in a Penning trap experiment
  New J. Phys. 20, 055013 (2018)
  arXiv:1902.03354 [quant-ph]
   
• Philipp Kunkel, Maximilian Prüfer, Helmut Strobel, Daniel Linnemann, Anika Frölian, Thomas Gasenzer, Martin Gärttner, Markus K. Oberthaler
  Spatially distributed multipartite entanglement enables Einstein-Podolsky-Rosen steering of atomic clouds
  Science 360, 413-416 (2018)
  arXiv:1708.02407 [cond-mat.quant-gas]
   
• Martin Gärttner, Philipp Hauke, Ana Maria Rey
  Relating out-of-time-order correlations to entanglement via multiple quantum coherences
  Phys. Rev. Lett. 120, 040402 (2018) 
  arXiv:1706.01616 [quant-ph]
   
• Martin Gärttner, Justin G. Bohnet, Arghavan Safavi-Naini, Michael L. Wall, John J. Bollinger, Ana Maria Rey
  Measuring out-of-time-order correlations and multiple quantum spectra in a trapped-ion quantum magnet
  Nature Physics 13, 781–786 (2017) 
  arXiv:1608.08938 [quant-ph]
   
• J. P. Covey, S. A. Moses, M. Gärttner, A. Safavi-Naini, M. T. Miecnikowski, Z. Fu, J. Schachenmayer, P. S. Julienne, A. M. Rey, D. S. Jin, J. Ye
  Doublon dynamics and polar molecule production in an optical lattice
  Nature Communications 7, 11279 (2016)
  arXiv:1511.02225 [cond-mat.quant-gas]
   
• A. Fischer, M. Gärttner, P. Cörlin, A. Sperl, M. Schönwald, T. Mizuno, G. Sansone, A. Senftleben, J. Ullrich, B. Feuerstein, T. Pfeifer, R. Moshammer
  Molecular wave-packet dynamics on laser-controlled transition states
  Physical Review A 93, 012507 (2016)
  arXiv:1410.8032 [physics.atom-ph]
   
• M. Gärttner
  Heralded W state preparation using laser-designed super-atoms
  Physical Review A 92, 013629 (2015)
  arXiv:1505.03183 [quant-ph]
   
• M. Gärttner, S.V. Syzranov, A.M. Rey, V. Gurarie, L. Radzihovsky
  High-dimensional localisation physics in a 1D chiral system
  Physical Review B 92, 041406(R) (2015)
  arXiv:1504.05971 [cond-mat.mes-hall]
   
• M. Gärttner, S. Whitlock, D. W. Schönleber and J. Evers
  Collective Excitation of Rydberg-Atom Ensembles beyond the Superatom Model
  Physical Review Letters 113, 233002 (2014)
  arXiv:1408.2453 [physics.atom-ph]
   
• M. Gärttner, S. Whitlock, D. W. Schönleber and J. Evers
  Semi-analytical model for nonlinear absorption in strongly interacting Rydberg gases
  Physical Review A 89, 063407 (2014)
  arXiv:1402.4674 [physics.atom-ph]
   
• D. W. Schönleber, M. Gärttner and J. Evers
  Coherent versus incoherent excitation dynamics in dissipative many-body Rydberg systems
  Physical Review A 89, 033421 (2014)
  arXiv:1401.7260 [physics.atom-ph]
   
• H. Schempp, G. Günter, M. Robert-de-Saint-Vincent, C. S. Hofmann, D. Breyel, A. Komnik, D. W. Schönleber, M. Gärttner, J. Evers, S. Whitlock and M. Weidemüller
  Full counting statistics of laser excited Rydberg aggregates in a one-dimensional geometry
  Physical Review Letters 112, 013002 (2014)
  arXiv:1308.0264 [physics.atom-ph]
   
• M. Gärttner, K. P. Heeg, T. Gasenzer, and J. Evers
  Dynamic formation of Rydberg aggregates at off-resonant excitation
  Physical Review A 88, 043410 (2013)
  arXiv:1203.2884 [physics.atom-ph]
   
• M. Gärttner and J. Evers
  Nonlinear absorption and density-dependent dephasing in Rydberg electromagnetically-induced-transparency media
  Physical Review A 88, 033417 (2013)
  arXiv:1305.1458 [physics.atom-ph]
   
• C. S. Hofmann, G. Günter, H. Schempp, M. Robert-de-Saint-Vincent, M. Gärttner, J. Evers, S. Whitlock, and M. Weidemüller
  Sub-Poissonian statistics of Rydberg-interacting dark-state polaritons
  Physical Review Letters 110, 203601 (2013)
  arXiv:1211.7265 [physics.atom-ph]
   
• K. P. Heeg, M. Gärttner, and J. Evers
  Hybrid model for Rydberg gases including exact two-body correlations
  Physical Review A 86, 063421 (2012)
  arXiv:1202.2779 [quant-ph]
   
• M. Gärttner, K. P. Heeg, T. Gasenzer, and J. Evers
  Finite-size effects in strongly interacting Rydberg gases
  Physical Review A 86, 033422 (2012)
  arXiv:1205.4953 [physics.atom-ph]
   
• M. Gärttner, J. J. Omiste, P. Schmelcher, and R. González-Férez
  Fine Structure of Open Shell Diatomic Molecules in Combined Electric and Magnetic Fields
  Molecular Physics 111, 1865-1878 (2013)
  arXiv:1301.4586 [physics.chem-ph]
   
• J. J. Omiste, M. Gärttner, P. Schmelcher, R. González-Férez, L. Holmegaard, J. H. Nielsen, H. Stapelfeldt, and J. Küpper
  Theoretical description of adiabatic laser alignment and mixed-field orientation: the need for a non-adiabatic model
  Physical Chemistry Chemical Physics 13, 18815-18824 (2011)
  arXiv:1105.0534 [physics.chem-ph]
   
• M. Gärttner, F. Lenz, C. Petri, F. K. Diakonos, and P. Schmelcher
  Quantum scattering in driven single- and double-barrier systems
  Physical Review E 81, 051136 (2010)
   

Theses and other publications

• Thesis: Martin Gärttner, Many-Body Effects in Rydberg Gases: Coherent Dynamics of Strongly Interacting Two-Level Atoms and Nonlinear Optical Response of a Rydberg Gas in EIT Configuration (2013), Full text available on heiDOK.

• Magazine Article: Michael L. Wall, Arghavan Safavi-Naini, Martin Gärttner, Many-body quantum mechanics: too big to fail? Published in: XRDS: Crossroads, The ACM Magazine for Students - Quantum Computing (2016). doi: 10.1145/2983537

Publications on Google Scholar.