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Selected Publications of Christian Schüller

 

 

 

 

Monograph
Christian Schüller: 
„Inelastic Light Scattering of Semiconductor Nanostructures, Fundamentals and Recent Advances”, 
Springer Tracts in Modern Physics Vol. 219 (Springer Berlin, Heidelberg 2006).

Articles in peer-review Journals:

  1. Large-Scale Mapping of Moiré Superlattices by Hyperspectral Raman Imaging
    Kai-Qiang Lin, Johannes Holler, Jonas M. Bauer, Philipp Parzefall, Marten Scheuck, Bo Peng, Tobias Korn, Sebastian Bange, John M. Lupton, and Christian Schüller
    Advanced Materials, doi.org/10.1002/adma.202008333 (2021)
     
  2. Moiré phonons in twisted MoSe2–WSe2 heterobilayers and their correlation with interlayer excitons
    Philipp Parzefall, Johannes Holler, Marten Scheuck, Andreas Beer, Kai-Qiang Lin, Bo Peng, Bartomeu Montserrat, Philipp Nagler, Michael Kempf, Tobias Korn and Christian Schüller
    2D Materials 8, 035030 (2021)
     

  3. Low-frequency Raman scattering in WSe2−MoSe2 heterobilayers: Evidence for atomic reconstruction
    Johannes Holler, Sebastian Meier, Michael Kempf, Philipp Nagler, Kenji Watanabe, Takashi Taniguchi, Tobias Korn and Christian Schüller
    Applied Physics Letters 117, 013104 (2020)
     

  4. Inelastic light scattering by intrasubband spin-density excitations in GaAs-AlGaAs quantum wells with balanced Bychkov-Rashba and Dresselhaus spin-orbit coupling: Quantitative determination of the spin-orbit field
    S. Gelfert, C. Frankerl, C. Reichl, D. Schuh, G. Salis, W. Wegscheider, D. Bougeard, T. Korn, and C. Schüller
    Physical Review B 101, 035427 (2020)
     

  5. Interlayer Excitons in Transition‐Metal Dichalcogenide Heterobilayers
    Philipp Nagler, Fabian Mooshammer, Jens Kunstmann, Mariana V. Ballottin, Anatolie Mitioglu, Alexey Chernikov, Andrey Chaves, Frederick Stein, Nicola Paradiso, Sebastian Meier, Gerd Plechinger, Christoph Strunk, Rupert Huber, Gotthard Seifert, David R. Reichman, Peter C. M. Christianen, Christian Schüller, Tobias Korn
    physica status solidi b 256, 1900308 (2019).
     

  6. Tuning spontaneous emission through waveguide cavity effects in semiconductor nanowires
    Florian Dirnberger, D. R. Abujetas, J. König, M. Forsch, T. Koller, Imke Gronwald, Christoph Lange, Rupert Huber, Christian Schüller, Tobias Korn, J. A. Sánchez-Gil and Dominique Bougeard
    Nano Letters 19, 7287-7292 (2019).
     

  7. Ultralong spin lifetime in one-dimensional semiconductor nanowires
    Florian Dirnberger, Michael Kammermeier, Jan König, Moritz Forsch, Paulo E. Faria Junior, Tiago Campos, Jaroslav Fabian, John Schliemann, Christian Schüller, Tobias Korn, Paul Wenk and Dominique Bougeard
    Applied Physics Letters 114 (2019).
     

  8. Philipp Merkl, Fabian Mooshammer, Philipp Steinleitner, Anna Girnghuber, K. -Q. Lin, Philipp Nagler, Johannes Holler, Christian Schüller, John M. Lupton, Tobias Korn, S. Ovesen, S. Brem, Ermin Malic and Rupert Huber:
    "Ultrafast transition between exciton phases in van der Waals heterostructures",
    Nature Materials 18, 691 (2019).
     

  9. T. Völkl, D. Kochan, T. Ebnet, S. Ringer, D. Schiermeier, P. Nagler, T. Korn, C. Schüller, J. Fabian, D. Weiss, J. Eroms:
    "Absence of a giant spin Hall effect in plasma-hydrogenated graphene",
    Physical Review B 99, 085401 (2019).
     

  10. Air tightness of hBN encapsulation and its impact on Raman spectroscopy of van der Waals materials
    Johannes Holler, Lorenz Bauriedl, Tobias Korn, Andrea Seitz, Furkan Özyigit, Michaela Eichinger, Christian Schüller, Kenji Watanabe, Takashi Taniguchi, Christoph Strunk and Nicola Paradiso
    2D Materials 7, 015012 (2019)
     

  11. Philipp Steinleitner, Philipp Merkl, Alexander Graf, Philipp Nagler, Kenji Watanabe, Takashi Taniguchi, Jonas Zipfel, Christian Schüller, Tobias Korn, Alexey Chernikov, Samuel Brem, Malte Selig, Gunnar Berghäuser, Ermin Malic and Rupert Huber:
    "Dielectric Engineering of Electronic Correlations in a van der Waals Heterostructure",
    Nano Letters 18, 1402 (2018).
     

  12. P. Nagler, M. V. Ballottin, A. A. Mitioglu, M. V. Durnev, T. Taniguchi, K. Watanabe, A. Chernikov, C. Schüller, M. M. Glazov, P. C. M. Christianen, T. Korn:
    "Zeeman Splitting and Inverted Polarization of Biexciton Emission in Monolayer WS2",
    Phys. Rev. Lett. 121, 057402 (2018).
     
  13. M. Kulig, J. Zipfel, P. Nagler, S. Blanter, C. Schüller, T. Korn, N. Paradiso, M. M. Glazov, A. Chernikov:
    "Exciton Diffusion and Halo Effects in Monolayer Semiconductors",
    Phys. Rev. Lett. 120, 207401 (2018).
     
  14. F. Langer, C. P. Schmid, S. Schlauderer, M. Gmitra, J. Fabian, P. Nagler, C. Schüller, T. Korn, P. G. Hawkins, J. T. Steiner, U. Huttner, S. W. Koch, M. Kira, R. Huber:
    "Lightwave valleytronics in a monolayer of tungsten diselenide",
    Nature 557, 76 (2018).
     
  15. J. Kunstmann, F. Mooshammer, P. Nagler, A. Chaves, F. Stein, N. Paradiso, G. Plechinger, C. Strunk, C. Schüller, G. Seifert, D. R. Reichmann, and T. Korn:
    "Momentum-space indirect interlayer excitons in transition-metal dichalcogenide van der Waals heterostructures",
    Nature Physics 14, 801 (2018).
     
  16. C. Gradl, R. Winkler, M. Kempf, J. Holler, D. Schuh, D. Bougeard, A. Hernández-Mínguez, K. Biermann, P.V. Santos, C. Schüller, T. Korn:
    "Asymmetric  g Tensor in Low-Symmetry Two-Dimensional Hole Systems".
    Physical Review X 8, 021068 (2018).
     
  17. Philipp Nagler, Mariana V. Ballottin, Anatolie A. Mitioglu, Fabian Mooshammer, Nicola Paradiso, Christoph Strunk, Rupert Huber, Alexey Chernikov, Peter C. M. Christianen, Christian Schüller, and Tobias Korn:
    „Giant magnetic splitting inducing near-unity valley polarization in van der Waals heterostructures”,
    Nature Commun. 8, 1551 (2017).
     
  18. Mahfujur Rahaman, Raul D. Rodriguez, Gerd Plechinger, Stefan Moras, Christian Schüller, Tobias Korn, and Dietrich R. T. Zahn:
    „Highly Localized Strain in a MoS2/Au Heterostructure Revealed by Tip-Enhanced Raman Spectroscopy”,
    Nano Lett. 17, 6027 (2017).
     
  19. M. Schwemmer, P. Nagler, A. Hanninger, C. Schüller, and T. Korn:
    „Long-lived spin polarization in n-doped MoSe2 monolayers”,
    Appl. Phys. Lett. 111, 082404 (2017).
     
  20. Mathias Gehlmann, Irene Aguilera, Gustav Bihlmayer, Slavomir Nemsak, Philipp Nagler, Pika Gospodaric, Giovanni Zamborlini, Markus Eschbach, Vitaliy Feyer, Florian Kronast, Ewa Mlynczak, Tobias Korn, Lukasz Plucinski, Christian Schüller, Stefan Blügel, and Claus M. Schneider:
    „Direct Observation of the Band Gap Transition in Atomically Thin ReS2”,
    Nano Lett. 17, 5187 (2017).
     
  21. Kai Hao, Judith F. Specht, Philipp Nagler, Lixiang Xu, Kha Tran, Akshay Singh, Chandriker Kavir Dass, Christian Schüller, Tobias Korn, Marten Richter, Andreas Knorr, Xiaoqin Li, and Galan Moody:
    „Neutral and charged inter-valley biexcitons in monolayer MoSe2”,
    Nature Commun. 8, 15552 (2017).
     
  22. Archana Raja, Andrey Chaves, Jaeeun Yu, Ghidewon Arefe, Heather M. Hill, Albert F. Rigosi, Timothy C. Berkelbach, Philipp Nagler, Christian Schüller, Tobias Korn, Colin Nuckolls, James Hone, Louis E. Brus, Tony F. Heinz, David R. Reichman, and Alexey Chernikov:
    „Coulomb engineering of the bandgap and excitons in two-dimensional materials”,
    Nature Commun. 8, 15251 (2017).
     
  23. Robin P. Puchert, Florian Steiner, Gerd Plechinger, Felix J. Hofmann, Ines Caspers, Johanna Kirschner, Philipp Nagler, Alexey Chernikov, Christian Schüller, Tobias Korn, Jan Vogelsang, Sebastian Bange, and John M. Lupton:
    „Spectral focusing of broadband silver electroluminescence in nanoscopic FRET-LEDs”,
    Nature Nanotechnology. 12, 637 (2017).
     
  24. Philipp Steinleitner, Philipp Merkl, Philipp Nagler, Joshua Mornhinweg, Christian Schüller, Tobias Korn, Alexey Chernikov, and Rupert Huber:
    „Direct Observation of Ultrafast Exciton Formation in a Monolayer of WSe2”,
    Nano Lett. 17, 1455 (2017).
     
  25. N. Lundt, S. Stoll, P. Nagler, A. Nalitov, S. Klembt, S. Betzold, J. Goddard, E. Frieling, A. V. Kavokin, C. Schüller, T. Korn, S. Höfling, and C. Schneider:
    „Observation of macroscopic valley-polarized monolayer exciton-polaritons at room temperature”,
    Phys. Rev. B 96, 241403(R) (2017).
     
  26. Christian Bäuml, Tobias Korn, Christoph Lange, Christian Schüller, Christoph Strunk, and Nicola Paradiso:
    „Polarized surface-enhanced Raman spectroscopy of suspended carbon nanotubes by Pt-Re nanoantennas”,
    Phys. Rev. B 96, 035408 (2017).
     
  27. M. Buchner, T. Kuczmik, M. Oltscher, M. Ciorga, T. Korn, J. Loher, D. Schuh, C. Schüller, D. Bougeard, D. Weiss, and C. H. Back:
    „Optical investigation of electrical spin injection into an inverted two-dimensional electron gas structure”,
    Phys. Rev. B 95, 035304 (2017).
     
  28. G. Plechinger, P. Nagler, Ashish Arora, Robert Schmidt, Alexey Chernikov, John Lupton, Rudolf Bratschitsch, C. Schüller, and T. Korn:
    „Valley dynamics of excitons in monolayer dichalcogenides”,
    Phys. Status Solidi Rapid Research Letters 11, 1700131 (2017).
     
  29. N. Lundt, P. Nagler, A. Nalitov, S. Klembt, M. Wurdack, S. Stoll, T. H. Harder, S. Betzold, V. Baumann, A. V. Kavokin, C. Schüller, T. Korn, S. Höfling, and C. Schneider:
    „Valley polarized relaxation and upconversion luminescence from Tamm-plasmon trion-polaritons with a MoSe2 monolayer”,
    2D Materials 4, 026095 (2017).
     
  30. Philipp Nagler, Gerd Plechinger, Mariana V. Ballottin, Anatolie Mitioglu, Sebastian Meier, Nicola Paradiso, Christoph Strunk, Alexey Chernikov, Peter C. M. Christianen, Christian Schüller, and Tobias Korn:
    „Interlayer exciton dynamics in a dichalcogenide monolayer heterostructure”,
    2D Materials 4, 025112 (2017).
     
  31. Trion valley coherence in monolayer semiconductors
    Kai Hao, Lixiang Xu, Fengcheng Wu, Philipp Nagler, Kha Tran, Xin Ma, Christian Schüller, Tobias Korn, Allan H MacDonald, Galan Moody, Xiaoqin Li
    2D Materials 4, 025105 (2017)
     
  32. Characterization of highly crystalline lead iodide nanosheets prepared by room-temperature solution processing
    Riccardo Frisenda, Joshua O Island, Jose L Lado, Emerson Giovanelli, Patricia Gant, Philipp Nagler, Sebastian Bange, John M Lupton, Christian Schüller, Aday J Molina-Mendoza, Lucia Aballe, Michael Foerster, Tobias Korn, Miguel Angel Niño, David Perez de Lara, Emilio M Pérez, Joaquín Fernandéz-Rossier, Andres Castellanos-Gomez
    Nanotechnology 28, 455703 (2017)
     
  33. Gerd Plechinger, Philipp Nagler, Ashish Arora, Andres Granados del Aguila, Mariana V. Ballottin, Tobias Frank, Philipp Steinleitner, Martin Gmitra, Jaroslav Fabian, Peter C. M. Christianen, Rudolf Bratschitsch, Christian Schüller, and Tobias Korn:
    „Excitonic Valley Effects in Monolayer WS2 under High Magnetic Fields”,
    Nano Lett. 16, 7899 (2016).
     
  34. Malte Selig, Gunnar Berghäuser, Archana Raja, Philipp Nagler, Christian Schüller, Tony F. Heinz, Tobias Korn, Alexey Chernikov, Ermin Malic, and Andreas Knorr:
    „Excitonic linewidth and coherence lifetime in monolayer transition metal dichalcogenides”,
    Nature Commun. 7, 13279 (2016).
     
  35. M. Schwemmer, A. Hanninger, M. Weingartner, M. Oltscher, M. Ciorga, D. Weiss, D. Schuh, D. Bougeard, T. Korn, and C. Schüller:
    „Deterministic transfer of spin polarization in wire-like lateral structures via the persistent spin helix”,
    Appl. Phys. Lett. 109, 172106 (2016).
     
  36. Stephan Furthmeier, Florian Dirnberger, Martin Gmitra, Andreas Bayer, Moritz Forsch, Joachim Hubmann, Christian Schüller, Elisabeth Reiger, Jaroslav Fabian, Tobias Korn, and Dominique Bougeard:
    „Enhanced spin-orbit coupling in core/shell nanowires”,
    Nature Commun. 7, 12413 (2016).
     
  37. Kai Hao, Lixiang Xu, Philipp Nagler, Akshay Singh, Kha Tran, Chandriker Kavir Dass, Christian Schüller, Tobias Korn, Xiaoqin Li, and Galan Moody:
    „Coherent and Incoherent Coupling Dynamics between Neutral and Charged Excitons in Monolayer MoSe2”,
    Nano Lett. 16, 5109 (2016).
     
  38. M. A. Huber, M. Plankl, M. Eisele, R. E. Marvel, F. Sandner, T. Korn, C. Schüller, R. F. Haglund, Jr., R. Huber, and T. L. Cocker:
    „Ultrafast Mid-Infrared Nanoscopy of Strained Vanadium Dioxide Nanobeams”,
    Nano Lett. 16, 1421 (2016).
     
  39. R. Schmidt, A. Arora, G. Plechinger, P. Nagler, A. Granados del Aguila, M. V. Ballottin,P. C. M. Christianen, S. Michaelis de Vasconcellos, C. Schüller, T. Korn, and R. Bratschitsch:
    „Magnetic-field-induced rotation of polarized light emission from monolayer WS2”,
    Phys. Rev. Lett. 117, 077402 (2016).
     
  40. G. Plechinger, P. Nagler, A. Arora, R. Schmidt, A. Chernikov, A. Granados del Aguila, P. C. M.Christianen, R. Bratschitsch, C. Schüller, and T. Korn:
    „Trion fine structure and coupled spin-valley dynamics in monolayer Tungsten Disulfide”,
    Nature Comm. 7, 12715 (2016).
     
  41. T. Maag, A. Bayer, S. Baierl, M. Hohenleutner, T. Korn, C. Schüller, D. Schuh, D. Bougeard, C. Lange, R. Huber, M. Mootz,J. E. Sipe, S. W. Koch and M. Kira:
    „Coherent cyclotron motion beyond Kohn's theorem”,
    Nature Physics 12, 119 (2016).
     
  42. F. Langer, M. Hohenleutner, C. P. Schmid, C. Poellmann, P. Nagler, T. Korn, C. Schüller, M. S. Sherwin, U. Huttner, J. T. Steiner, S. W. Koch, M. Kira, and R. Huber:
    „Lightwave-driven quasiparticle collisions on a subcycle timescale”,
    Nature 533, 225 (2016).
     
  43. P. Nagler, G. Plechinger, C. Schüller, and T. Korn:
    „Observation of anisotropic interlayer Raman modes in few-layer ReS2”,
    Phys. Status Solidi Rapid Research Letters 10, 185 (2016).
     
  44. Resonant electronic Raman scattering: A BCS-like system
    Leonarde N. Rodrigues, A. Arantes, C. Schüller, M.JV. Bell, V. Anjos
    Phys. Rev B 93, 205409 (2016)
     
  45. C. Poellmann, P. Steinleitner, U. Leierseder, P. Nagler, G. Plechinger, M. Porer, R. Bratschitsch, C. Schüller, T. Korn, and R. Huber:
    „Resonant internal quantum transitions and femtosecond radiative decay of excitons in monolayerWSe2”,
    Nature Materials 14, 889 (2015).
     
  46. N. Paradiso, F. Yaghobian, C. Lange, T. Korn, C. Schüller, R. Huber, and C. Strunk:
    „Tailored nanoantennas for directional Raman studies of individual carbon nanotubes”,
    Phys. Rev. B 91, 235449 (2015).
     
  47. G. Plechinger, F. Mooshammer, A. Castellanos-Gomez, G. A. Steele, C. Schüller, and T. Korn:
    „Optical spectroscopy of interlayer coupling in artificially stacked MoS2 layers”,
    2D Materials 2, 034016 (2015).
     
  48. G. Plechinger, A. Castellanos-Gomez, M. Buscema, H. S. J. van der Zant, G. A. Steele, A. Kuc, T. Heine, C. Schüller, and T. Korn:
    „Control of biaxial strain in single-layer molybdenite using local thermal expansion of the substrate”,
    2D Materials 2, 015006 (2015).
     
  49. G. Plechinger, P. Nagler, J. Kraus, N. Paradiso, C. Strunk, C. Schüller, and T. Korn:
    „Identification of excitons, trions and biexcitons in single-layer WS2”,
    physics status solidi (RRL) 9, 457 (2015).
     
  50. C. Gradl, M. Kempf, D. Schuh, D. Bougeard, R. Winkler, C. Schüller, and T. Korn
    „Hole-spin dynamics and hole g-factor anisotropy in coupled quantum well systems”,
    Phys. Rev. B 90, 165439 (2014).
     
  51. C. Schönhuber, M. P. Walser, G. Salis, C. Reichl, W. Wegscheider, T. Korn, and C. Schüller:
    „Inelastic light-scattering from spin-density excitations in the regime of the persistent spin helix in a GaAs-AlGaAs quantum well”,
    Phys. Rev. B 89, 085406 (2014).
     
  52. R. Völkl, M. Schwemmer, M. Griesbeck, S. A. Tarasenko, D. Schuh, W. Wegscheider, C. Schüller, and T. Korn
    „Spin polarization, dephasing, and photoinduced spin diffusion in (110)-grown two-dimensional electron systems”,
    Phys. Rev. B 89, 075424 (2014)
     
  53. T. Korn and C. Schüller:
    „Hole spin dynamics and valence-band spin excitations in two-dimensional hole systems”,
    physica status solidi (b) 251, 1881 (2014).
     
  54. G. Plechinger, J. Mann, E. Preciado, D. Barroso, A. Nguyen, J. Eroms, C. Schüller, L. Bartels, and T. Korn:
    „A direct comparison of CVD-grown and exfoliated MoS2 using optical spectroscopy”,
    Semicond. Sci. Technol. 29, 064008 (2014).
     
  55. F. Oberhuber, S. Blien, S. Heydrich, F. Yaghobian, T. Korn, C. Schüller, C. Strunk, D. Weiss, and J. Eroms:
    „Weak localization and Raman study of anisotropically etched graphene antidots”,
    Appl. Phys. Lett. 103, 143111 (2013).
     
  56. K. Korzekwa, C. Gradl, M. Kugler, S. Furthmeier, M. Griesbeck, M. Hirmer, D. Schuh, W. Wegscheider, T. Kuhn, C. Schüller, T. Korn, and P. Machnikowski:
    „Spin dynamics in p-doped semiconductor nanostructures subject to a magnetic field tilted from the Voigt geometry”,
    Phys. Rev. B 88, 155303 (2013).
     
  57. G. Plechinger, S. Heydrich, J. Eroms, D. Weiss, C. Schüller, and T. Korn,
    „Raman spectroscopy of the interlayer shear mode in few-layer MoS2 flakes”,
    Appl. Phys. Lett. 101, 101906 (2012).
     
  58. M. Griesbeck, M. M. Glazov, E. Ya. Sherman, D. Schuh, W. Wegscheider, C. Schüller, and T. Korn:
    „Strongly anisotropic spin relaxation revealed by resonant spin amplification in (110) GaAs quantum wells”,
    Phys. Rev. B 85, 085313 (2012).
     
  59. F. Yaghobian, T. Korn, and C. Schüller:
    „Frequency Shift in Graphene-Enhanced Raman Signal of Molecules”,
    ChemPhysChem 13, 4271 (2012).
     
  60. G. Plechinger, F.-X. Schrettenbrunner, J. Eroms, D. Weiss, C. Schüller, and T. Korn
    „Low-temperature photoluminescence of oxide-covered single-layer MoS2”,
    physica status solidi (RRL) - Rapid Research Letters (2012) / DOI 10.1002/pssr.201105589
     
  61. M. Hirmer, M. Hirmer, D. Schuh, W. Wegscheider, T. Korn, R. Winkler, and C. Schüller,
    „Fingerprints of the Anisotropic Spin-Split Hole Dispersion in Resonant Inelastic Light Scattering in Two-Dimensional Hole Systems”,
    Phys. Rev. Lett. 107, 216805 (2011).
     
  62. T. Korn, S. Heydrich, M. Hirmer, J. Schmutzler, and C. Schüller
    „Low-temperature photocarrier dynamics in monolayer MoS2”,
    Appl. Phys. Lett. 99, 102109 (2011).
     
  63. R. Völkl, M. Griesbeck, S. A. Tarasenko, D. Schuh, W. Wegscheider, C. Schüller, and T. Korn
    „Spin dephasing and photoinduced spin diffusion in a high-mobility two-dimensional electron system embedded in a GaAs-(Al,Ga)As quantum well grown in the [110] direction”,
    Phys. Rev. B 83, 241306(R) (2011).
     
  64. M. Kugler, K. Korzekwa, P. Machnikowski, C. Gradl, S. Furthmeier, M. Griesbeck, M. Hirmer, D. Schuh, W. Wegscheider, T. Kuhn, C. Schüller, and T. Korn:
    „Decoherence-assisted initialization of a resident hole spin polarization in a p-doped semiconductor quantum well”,
    Phys. Rev. B 84, 085327 (2011).
     
  65. V. Lechner, L. E. Golub, F. Lomakina, V. V. Belkov, P. Olbrich, S. Stachel, I. Caspers, M. Griesbeck, M. Kugler, M. J. Hirmer, T. Korn, C. Schüller, D. Schuh, W. Wegscheider, and S. D. Ganichev:
    „Spin and orbital mechanisms of the magnetogyrotropic photogalvanic effects in GaAs/AlxGa1-xAs quantum well structures”,
    Phys. Rev. B 83, 155313 (2011).
     
  66. S. Heydrich, M. Hirmer, C. Preis, T. Korn, J. Eroms, D. Weiss, and C. Schüller
    „Scanning Raman spectroscopy of graphene antidot lattices: Evidence for systematic p-type doping”,
    Appl. Phys. Lett. 97, 043113 (2010).
     
  67. T. Korn, M. Kugler, M. Griesbeck, R. Schulz, A. Wagner, M. Hirmer, C. Gerl, D. Schuh, W. Wegscheider, and C. Schüller
    „Engineering ultralong spin coherence in two-dimensional hole systems at low temperatures”,
    New J. Phys. 12, 043003 (2010).
     
  68. Ch. Strelow, M. Sauer, S. Fehringer, T. Korn, C. Schüller, A. Stemmann, Ch. Heyn, D. Heitmann, and T. Kipp
    „Time-resolved studies of a rolled-up semiconductor microtube laser”,
    Appl. Phys. Lett. 95, 221115(2009).
     
  69. M. Griesbeck, M. M. Glazov, T. Korn, E. Ya. Sherman, D. Waller, C. Reichl, D. Schuh, W. Wegscheider, and C. Schüller:
    „Cyclotron effect on coherent spin precession of two-dimensional electrons”,
    Phys. Rev. B, 80, 241314(R) (2009).
     
  70. M. Kugler, T. Andlauer, T. Korn, A. Wagner, S. Fehringer, R. Schulz, M. Kubova, C. Gerl, D. Schuh, W. Wegscheider, P. Vogl, and C. Schüller:
    „Gate control of low-temperature spin dynamics in two-dimensional hole systems”,
    Phys. Rev. B 80, 035325 (2009).
     
  71. P. Olbrich, J. Allerdings, V. V. Belkov, S. A. Tarasenko, D. Schuh, W. Wegscheider, T. Korn, C. Schüller, D. Weiss, and S. D. Ganichev:
    „Magnetogyrotropic photogalvanic effect and spin dephasing in (110)-grown GaAs/AlxGa1-xAs quantum well structures”,
    Phys. Rev. B 79, 245329 (2009).
     
  72. J. H. Jiang, Y. Zhou, T. Korn, C. Schüller, and M. W. Wu:
    „Electron spin relaxation in paramagnetic Ga(Mn)As quantum wells”,
    Phys. Rev. B 79, 155201(2009).
     
  73. V. V. Belkov, P. Olbrich, S. A. Tarasenko, D. Schuh, W. Wegscheider, T. Korn, C. Schüller, D. Weiss, W. Prettl, and S. D. Ganichev:
    „Symmetry and spin dephasing in (110)-grown quantum wells”,
    Phys. Rev. Lett. 100, 176806 (2008).
     
  74. A. Wirthmann, X. Hui, N. Mecking, Y. S. Gui, T. Chakraborty, C.-M. Hu, M. Reinwald, C. Schüller, and W. Wegscheider:
    „Broadband electrical detection of spin excitations in GaMnAs using a photovoltage technique”,
    Appl. Phys. Lett. 92, 232106 (2008).
     
  75. T. Korn, D. Stich, R. Schulz, D. Schuh, W. Wegscheider, and C. Schüller:
    „Large in-plane spin-dephasing anisotropy in a [001]-grown two-dimensional electron system”,
    Physica E 40, 1542 (2008).
     
  76. D. Stich, T. Korn, R. Schulz, D. Schuh, W. Wegscheider, and C. Schüller:
    „Increase of spin dephasing times in a 2D electron system with degree of initial spin polarization”,
    Physica E 40, 1545 (2008).
     
  77. K.-B. Broocks, B. Su, P. Schröter, Ch. Heyn, D. Heitmann, W. Wegscheider, V. M. Apalkov, T. Chakraborty, I. E. Perakis, and C. Schüller:
    „Linear and ultrafast optical spectroscopy in the regime of the quantum Hall effect”,
    phys. Stat. sol. B 245, 321 (2008).
     
  78. D. Stich, J. Zhou, T. Korn, R. Schulz, D. Schuh, W. Wegscheider, M.W. Wu, and C. Schüller:
    „Effect of Initial Spin Polarization on Spin Dephasing and the Electron g Factor in a High-Mobility Two-Dimensional Electron System”,
    Phys. Rev. Lett. 98, 176401 (2007).
     
  79. D. Stich, J. H. Jiang, T. Korn, R. Schulz, D. Schuh, W. Wegscheider, M.W. Wu, and C. Schüller:
    „Detection of large magneto-anisotropy of electron spin desphasing in a high mobility two-dimensional electron system in a [001] GaAs/AlGaAs quantum well”,
    Phys. Rev. B 76, 073309 (2007).
     
  80. D. Stich, J. Zhou, T. Korn, R. Schulz, D. Schuh, W. Wegscheider, M.W. Wu, and C. Schüller:
    „Dependence of spin dephasing on initial spin polarization in a high-mobility two-dimensional electron system”,
    Phys. Rev. B 76, 205301 (2007).
     
  81. R. Schulz, T. Korn, U. Wurstbauer, D. Schuh, W. Wegscheider, and C. Schüller:
    „Ultrafast optical studies of diffusion barriers between ferromagnetic Ga(Mn)As layers and non-magnetic quantum wells”,
    Physica E 40, 2163 (2007).
     
  82. R. Krahne, G. Chilla, C. Schüller, L. Carbone, S. Kudera, G. Mannarini, L. Manna, D. Heitmann, and R. Cingolani:
    „Confinement Effects on Optical Phonons in Polar Tetrapod Nanocrystals Detected by Resonant Inelastic Light Scattering”,
    Nano Lett. 6, 478 (2006).
     
  83. A. F. Dethlefsen, Ch. Heyn, D. Heitmann, and C. Schüller:
    „Confined acoustic and optical plasmons in double-layered quantum-wire arrays with strong tunneling”,
    Phys. Rev. B 73, 193307 (2006).
     
  84. V. M. Apalkov T. Chakraborty, and C. Schüller:
    „Spin transitions in an incompressible liquid Coulomb-coupled to a quantum dot”,
    Phys. Rev. B 73, 073310 (2006).
     
  85. R. Krahne, G. Chilla, C. Schüller, S. Kudera, D. Tari, M. De Giorgi, D. Heitmann, R. Cingolani, and L. Manna:
    „Shape Dependence of the Scattering Processes of Optical Phonons in Colloidal Nanocrystals Detected by Raman Spectroscopy”,
    J. Nanoelectron. Optoelectron. 1, 107 (2006).
     
  86. T. Korn, F. Giesen, J. Podbielski, D. Ravlic, C. Schueller, and D. Grundler:
    „Time-resolved study of the increased magnetization precession frequency in Fe wires”,
    Journal of Magnetism and Magnetic Materials, JMMM, 285, 240 (2005).
     
  87. T. Kipp, K. Petter, D. Heitmann, Ch. Heyn, and C. Schüller:
    „Broadband emission and low absorption of AlGaAs alloy quantum well microdisks”,
    Appl. Phys. Lett. 84, 1477 (2004).
     
  88. T. Korn, F. Müller, D. Grundler, and C. Schüller:
    „Characterization of Permalloy films on high-bandwidth striplines”,
    Journal of Magnetism and Magnetic Materials, JMMM, 272-276, E1341 (2004).
     
  89. C. Schüller, K.-B. Broocks, P. Schröter, Ch. Heyn, D. Heitmann, V. Apalkov, T. Chakraborty, M. Bichler, and W. Wegscheider:
    „How to Probe a Fractionally-Charged Quasihole?”,
    Physica E 22, 131 (2004).
     
  90. T. Brocke, M.-T. Bootsmann, B. Wunsch, M. Tews, D. Pfannkuche, Ch. Heyn, W. Hansen, D. Heitmann, and C. Schüller:
    „Inelastic Light Scattering on Few-Electron Quantum-Dot Atoms”,
    Physica E 22, 478 (2004).
     
  91. T. Kipp, K. Petter, Ch. Heyn, D. Heitmann, and C. Schüller:
    „Spectroscopy of Individual AlGaAs Microdisks in Large Periodic Arrays”,
    Physica E 21, 830 (2004).
     
  92. T. Brocke, M.-T. Bootsmann, M. Tews, B. Wunsch, D. Pfannkuche, Ch. Heyn, W. Hansen, D. Heitmann, and C. Schüller:
    „Spectroscopy of Few-Electron Collective Excitations in Charge-Tunable Artificial Atoms”,
    Phys. Rev. Lett. 91, 257401 (2003).
     
  93. C. Schüller, K.-B. Broocks, P. Schröter, Ch. Heyn, D. Heitmann, M. Bichler, W. Wegscheider, T. Chakraborty, and V. M. Apalkov:
    „Optical probing of a fractionally-charged quasihole in an incompressible liquid”,
    Phys. Rev. Lett. 91, 116403 (2003).
     
  94. M.-T. Bootsmann, C.-M. Hu, Ch. Heyn, D. Heitmann, and C. Schüller:
    „Acoustic plasmons and indirect intersubband excitations in tunneling-coupled GaAs-AlGaAs double quantum wells”,
    Phys. Rev. B 67, 121309(R) (2003).
     
  95. K. Petter, T. Kipp, D. Heitmann, Ch. Heyn, and C. Schüller:
    „Fabrication of large periodic arrays of AlGaAs microdisks by laser-interference lithography and selective etching”,
    Appl. Phys. Lett. 81, 592 (2002).
     
  96. K.-B. Broocks, P. Schröter, D. Heitmann, Ch. Heyn, C. Schüller, M. Bichler, and W. Wegscheider:
    „Anomalous dispersion of charged excitons in dilute two-dimensional electron systems at low temperatures”,
    Phys. Rev. B, 66, 041309(R) (2002).
     
  97. C. Schüller, K.-B. Broocks, Ch. Heyn, and D. Heitmann:
    „ Oscillator strengths of dark charged excitons at low electron filling factors”,
    Phys. Rev. B 65, 081301(R) (2002).
     
  98. N. A. Fromer, C. Schüller, D. S. Chemla, I. E. Perakis, D. Driscoll, and A. C. Gossard:
    „Investigation of Coulomb correlations in a two-dimensional electron gas in large magnetic fields”,
    Phys. Rev. B 66, 205314 (2002).
     
  99. T. Kipp, L. Rolf, C. Schüller, D. Endler, Ch. Heyn, and D. Heitmann:
    „Optical double resonance of electronic Raman scattering in a AlAs-AlGaAs microcavity”,
    Physica E 13, 408 (2002).
     
  100. N. A. Fromer, C. Schüller, D. S. Chemla, T. V. Shahbazyan, I. E. Perakis, D. Driscoll, and A. C. Gossard:
    „Femtosecond dynamics of inter-Landau level excitations of a two-dimensional electron gas in the quantum Hall regime”,
    Physica E 12, 550 (2002).
     
  101. C.-M. Hu, C. Schüller, and D. Heitmann:
    „Space asymmetry induced plasmon mode-mixing and anti-crossing in coupled bilayer structures”,
    Phys. Rev. B 64, 073303-073306 (2001).
     
  102. T. Kipp, L. Rolf, C. Schüller, D. Endler, Ch. Heyn, and D. Heitmann:
    „Selectively Enhanced Inelastic Light Scattering of Electronic Excitations in a Semiconductor Microcavity”,
    Phys. Rev. B 63, 195304-195307 (2001).
     
  103. K.-B. Broocks, T. Ebeling, L. Karsten, C. Schüller, Ch. Heyn, and D. Heitmann:
    „Electric field-dependent Zeeman splitting of excitons in diluted two-dimensional electron systems”,
    phys. stat. sol. (b) 227, 339-342 (2001).
     
  104. C. Steinebach, C. Schüller, E. Ulrichs, Ch. Heyn, and D. Heitmann:
    „Resonant inelastic light scattering on GaAs-AlGaAs quantum dots”,
    phys. stat. sol. (b) 224, 97-100 (2001).
     
  105. C. Steinebach, C. Schüller, and D. Heitmann:
    „Single-particle-like states in few-electron quantum dots”,
    Phys. Rev. B 61, 15600-15603 (2000).
     
  106. N. A. Fromer, C. Schüller, D. S. Chemla, K. Maranowski, and A. C. Gossard:
    „Dephasing in the presence of a two-dimensional electron gas at high magnetic fields”,
    Physica E 6, 210-213 (2000).
     
  107. E. Ulrichs, C. Steinebach, C. Schüller, Ch. Heyn, and D. Heitmann:
    „Coulomb-interaction induced crossover from confined to bulk quantum-dot states in a magnetic field”,
    Physica E 6, 364-366 (2000).
     
  108. N. A. Fromer, C. Schüller, D. S. Chemla, T. V. Shahbazyan, I. E. Perakis, K. Maranowski, and A. C. Gossard:
    „Electronic Dephasing in the Quantum Hall Regime”,
    Phys. Rev. Lett. 83, 4646-4649 (1999).
     
  109. C. Steinebach, C. Schüller, and D. Heitmann:
    „Resonant Raman scattering of quantum dots”,
    Phys. Rev. B 59, 10240-10245 (1999).
     
  110. D. Heitmann, V. Gudmundsson, L. Rolf, C. Schüller, C. Steinebach, and E. Ulrichs,
    „Spectroscopy of few-electron quantum dots”,
    Acta Physica Polonica A 96, 545 (1999).
     
  111. C. Schüller, K. Keller, G. Biese, E. Ulrichs, L. Rolf, C. Steinebach, D. Heitmann, and K. Eberl:
    „Quasiatomic Fine Structure and Selection Rules in Quantum Dots”,
    Phys. Rev. Lett. 80, 2673-2676 (1998).
     
  112. C. Steinebach, C. Schüller, G. Biese, D. Heitmann, and K. Eberl:
    „Observation of finite-thickness effects on the spin-density excitations in quantum wires”,
    Phys. Rev. B 57, 1703-1706 (1998).
     
  113. G. Biese, E. Ulrichs, L. Rolf, C. Schüller, C. Steinebach, S. Bargstädt-Franke, Ch. Heyn, D. Heitmann, and K. Eberl:
    „Edge spin-density modes in quantum dots in a magnetic field”,
    Physica E 2, 619-622 (1998).
     
  114. C. Schüller, R. Krahne, G. Biese, C. Steinebach, E. Ulrichs, D. Heitmann, and K. Eberl:
    „Multiple cyclotron resonances in GaAs-AlGaAs quantum wells detected by resonant inelastic light scattering”,
    Phys. Rev. B 56, 1037-1040 (1997).
     
  115. E. Ulrichs, G. Biese, C. Steinebach, C. Schüller, and D.  Heitmann:
    „One-dimensional plasmons in magnetic fields”,
    Phys. Rev. B 56, R12760-R12763 (1997).
     
  116. E. Ulrichs, G. Biese, C. Steinebach, C. Schüller, D. Heitmann, and K. Eberl:
    „Skipping-orbit electron motion in GaAs-AlGaAs quantum wires detected by Raman spectroscopy”,
    phys. stat. sol. (a) 164, 277-280 (1997).
     
  117. F. Rademacher, H. Eggers, T. O. Wiegard, C. Schüller, S. Bargstädt-Franke, Ch. Heyn, K. Eberl, and D. Heitmann:
    „Magneto-optical investigation of excitons in narrow GaAs-AlGaAs quantum wires”,
    phys. stat. sol. (a) 164, 325-329 (1997).
     
  118. C. Schüller, G. Biese, K. Keller, C. Steinebach, D. Heitmann, P. Grambow, and K.  Eberl:
    „Single-particle excitations and many-particle interactions in quantum wires and dots”,
    Phys. Rev. B 54, R17304-R17307 (1996).
     
  119. C. Steinebach, R. Krahne, G. Biese, C. Schüller, D. Heitmann, and K. Eberl:
    „Internal electron-electron interactions in one-dimensional systems detected by Raman spectroscopy" , 
    Phys. Rev. B 54, R14281-R14284 (1996).
     
  120. G. Biese, C. Schüller, K. Keller, C. Steinebach, D. Heitmann, P. Grambow, and K. Eberl:
    „Coupling of lateral and vertical electron motion in GaAs-AlGaAs quantum wires and dots”,
    Phys. Rev. B 53, 9565-9567 (1996).
     
  121. G. Biese, C. Schüller, T. Kurth, D. Heitmann, P. Grambow, and K. Eberl:
    „Combined 1D-2D intersubband excitations and 1D single-particle spectrum in narrow quantum wires”,
    Surf. Sci. 361/362, 797-800 (1996).
     
  122. C. Schüller, J. Kraus, G. Schaack, G. Weimann, and K. Panzlaff:
    „Electronic Raman scattering in p-doped GaAs/GaAlAs quantum-well structures: Scattering mechanisms and many-particle interactions”,
    Phys. Rev. B 50, 18387-18394 (1994).
     
  123. M. Kirchner, C. Schüller, J. Kraus, G. Schaack, K. Panzlaff, and G. Weimann:
    „Consequences of subband nonparabolicity on intersubband excitations in p-doped GaAs/AlGaAs quantum wells”,
    Phys. Rev. B 47, 9706-9709 (1993).
     
  124. C. Schüller, J. Kraus, V. Latussek, G. Schaack, and J. K. Ebeling:
    „Collective intersubband excitations in p-doped GaAs-AlGaAs multiple quantum wells”,
    Solid State Commun. 81, 3-7 (1992).
     
  125. J. Kraus, P. Ils, C. Schüller, G. Schaack, J. K. Ebeling, W. Schlapp, and G. Weimann:
    „The coupling of intersubband transitions and the quantum-well LO phonon in p-doped GaAs-GaAlAs multiple quantum wells”,
    J. Phys. Condens. Matter 3, 8267-8279 (1991).
     
  126. M. Dahl, P. Ils, J. Kraus, B. Müller, G. Schaack, C. Schüller, J. K. Ebeling, and G. Weimann:
    „Hole-intersubband excitations and luminescence transitions in p-doped GaAs-AlGaAs multiple quantum wells”, Superlatt. and Microstruc. 9, 77-81 (1991).


    Invited review articles and book chapters:
     
  127. T. Korn, G. Plechinger, S. Heydrich, F.-X. Schrettenbrunner, J. Eroms, D. Weiss,and C. Schüller
    „Optical Characterization, Low-Temperature Photoluminescence, and Photocarrier Dynamics in MoS2 ”,
    Springer Lecture Notes in Nanoscale Science and Technology 21, 217-236 (2014).
     
  128. T. Korn, D. Stich, R. Schulz, D. Schuh, W. Wegscheider, and C. Schüller (invited article):
    „Spin Dynamics in high-mobility two-dimensional electron systems”,
    Advances in Solid State Physics, Vol. 48, Ed. R. Haug (Springer Berlin, Heidelberg, New York, 2009).
     
  129. C. Schüller, K.-B. Broocks, P. Schröter, C. Heyn, D. Heitmann, M. Bichler, W. Wegscheider, V. M. Apalkov, and T. Chakraborty (invited article):
    „Charged Excitons in the Quantum Hall regime”,
    Acta Physica Polonica 106, 341 (2004).
     
  130. Christian Schüller, Kay-Birger Broocks, Patrick Schröter, Christian Heyn, Detlef Heitmann, Max Bichler, Werner Wegscheider, Vadim Apalkov, and Tapash Chakraborty (invited article):
    „Charged Excitons in the Quantum Hall Regime: Optical Probe of Fractionally Charged Quasiholes”,
    Advances in Solid State Physics, Vol. 44, Ed. B. Kramer (Springer Berlin, Heidelberg, New York, 2004).
     
  131. Christian Schüller (invited article):
    „Quantum Dots: Inelastic Light Scattering on Electronic Excitations”,
    Marcel Dekkers's Encyclopedia of Nanoscience and Nanotechnology, Marcel Dekker Inc., New York 2004.
     
  132. C. Schüller, C. Steinebach, and D. Heitmann (invited article)
    „Spin-and Charge-Density Excitations in Quantum Dots: A Raman Study”,
    Solid State Commun. 119, 323-331 (2001).
     
  133. Christian Schüller, Ilias E. Perakis, Neil A. Fromer, and Daniel S. Chemla (invited book chapter)
    „Ultrafast Spectroscopy in the Quantum Hall Regime”,
    in: Nonequilibrium Physics at Short Time Scales: Formation of Correlations, ed. by Klaus Morawetz (Springer Berlin, Heidelberg, New York, 2004) 209-230.
     
  134. Christian Schüller (invited article)
    „Raman Spectroscopy of Quantum Dots”,
    Festkörperprobleme, Advances in Solid State Physics 38, 167-181 (1999).
     
  135. Christian Schüller (invited article)
    „Raman Spectroscopy of Quantum Wires and Dots: Magnetoplasmons   and Edge-Spin-Density Modes”,
    Proceedings of the 10th International Winterschool on New Developments in Solid State Physics: New Frontiers in Low-Dimensional Physics, Mauterndorf, Austria, 23-27 February 1998, Physica E 3, 121-128 (1998).


  1. Universität
  2. Physik

Optics of Semiconductor Quantum Structures

Publications


Contact

Prof. Dr. Christian Schüller 

Tel. +49 (0)941 943 2078

christian.schueller@ur.de