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Preprints

  1. Numerical method for non-linear steady-state transport in one-dimensional correlated conductors
    M. Einhellinger, A. Cojuhovschi and E. Jeckelmann,
    E-print:     arXiv:1201.5323v1 [cond-mat.str-el].

  2. Local density of states of the one-dimensional spinless fermion model
    E. Jeckelmann,
    E-print: arXiv:1111.6545v2 [cond-mat.str-el].


Journal articles

  1. Finite wave vector pairing in doped two-leg ladders
    N.J. Robinson, F.H.L. Essler, E. Jeckelmann, and A.M. Tsvelik, Phys. Rev. B 85, 195103 (2012) [22 pages].
    E-print: arXiv:1202.0202v1 [cond-mat.str-el].

  2. Current-current correlations in the three-band model for two-leg CuO ladders: Density-matrix renormalization group study
    S. Nishimoto, E. Jeckelmann, and D.J. Scalapino, Phys. Rev. B 79, 205115 (2009) [5 pages].
    E-print: arXiv:0804.3085 [cond-mat.str-el].

  3. Charge and spin Drude weight of the one-dimensional extended Hubbard model at quarter-filling
    T. Shirakawa and E. Jeckelmann, Phys. Rev. B 79, 195121 (2009) [9 pages].
    E-print: arXiv:0902.4139 [cond-mat.str-el].

  4. Metallicity in the half-filled Holstein-Hubbard model
    Holger Fehske, Georg Hager, and E. Jeckelmann, Europhys. Lett. 84, 57001 (2008) [5 pages].
    E-print: arXiv:0808.1675 [cond-mat.str-el].

  5. Spin and charge dynamics of the one-dimensional extended Hubbard model
    H. Benthien and E. Jeckelmann, Phys. Rev. B 75, 205128 (2007) [9 pages].
    E-print: cond-mat/0606748.

  6. Unusual quasi-one-dimensional electron dispersions in the spin-1/2 quantum magnet TiOCl
    M. Hoinkis, M. Sing, J. Schaefer, M. Klemm, S. Horn, H. Benthien, E. Jeckelmann, T. Saha-Dasgupta, L. Pisani, R. Valenti, R. Claessen, Phys. Rev. B 72, 125127 (2005) [7 pages].
    E-print: cond-mat/0506203.

  7. Optical excitations of Peierls-Mott insulators with bond disorder
    J. Rissler, E. Jeckelmann, and F. Gebhard, J. Phys.: Condens. Matter 17, 4093-4110 (2005).
    E-print: cond-mat/0405180.

  8. Comment on Accurate ground-state phase diagram of the one-dimensional extended Hubbard model at half filling
    Eric Jeckelmann, Phys. Rev. B 71, 197101 (2005) [2 pages].
    E-print: cond-mat/0401490.

  9. Optical conductivity of the one-dimensional dimerized Hubbard model at quarter filling
    H. Benthien and E. Jeckelmann, Eur. Phys. J. B 44, pp. 287-297 (2005).
    E-print: cond-mat/0501263.

  10. Stripe formation in doped Hubbard ladders
    G. Hager, G. Wellein, E. Jeckelmann, and H. Fehske, Phys. Rev. B 71, 075108 (2005) [6 pages].
    E-print: cond-mat/0409321.

  11. Dynamical density-matrix renormalization group for the Mott-Hubbard insulator in high dimensions
    Satoshi Nishimoto, Florian Gebhard, and Eric Jeckelmann, J. Phys.: Condens. Matter 16, 7063-7081 (2004).
    E-print: cond-mat/0406666.

  12. Spectral function of the one-dimensional Hubbard model away from half filling
    H. Benthien, F. Gebhard, and E. Jeckelmann, Phys. Rev. Lett. 92, 256401 (2004).
    E-print: cond-mat/0402664.

  13. Resonant inelastic x-ray scattering study of holon-antiholon continuum in SrCuO2
    Young-June Kim, J.P. Hill, H. Benthien, F.H.L. Essler, E. Jeckelmann, H.S. Choi, T.W. Noh, N. Motoyama, K.M. Kojima, S. Uchida, D. Casa, and T. Gog, Phys. Rev. Lett. 92, 137402 (2004).
    E-print: cond-mat/0307497.

  14. Parallelization Strategies for Density Matrix Renormalization Group Algorithms on Shared-Memory Systems
    G. Hager, E. Jeckelmann, H.Fehske, and G. Wellein, Journal of Computational Physics 194, pp. 795-808 (2004).
    E-print: cond-mat/0305463.

  15. Density-matrix renormalization group approach to quantum impurity problems
    S. Nishimoto and E. Jeckelmann, J. Phys.: Condens. Matter 16, pp. 613-625 (2004).
    E-print: cond-mat/0311291.

  16. Fourth-Order Perturbation Theory for the Half-Filled Hubbard Model in Infinite Dimensions
    Florian Gebhard, Eric Jeckelmann, Sandra Mahlert, Satoshi Nishimoto, and Reinhard M. Noack, Eur. Phys. J. B 36, pp. 491-509 (2003).
    E-print: cond-mat/0306438.

  17. On the correlation effects in Peierls-Hubbard chains
    J. Málek, S.-L. Drechsler, S. Flach, E. Jeckelmann, and K. Kladko, Journal of the Physical Society of Japan 72, pp. 2277-2281 (2003).
    E-print: cond-mat/0210349.

  18. Reply to a Comment on Ground State Phase Diagram of a Half-Filled One-Dimensional Extended Hubbard Model
    E. Jeckelmann, Phys. Rev. Lett. 91, 089702 (2003) [1 page].
    E-print: cond-mat/0308446.

  19. Optical excitations in a one-dimensional Mott insulator
    E. Jeckelmann, Phys. Rev. B 67, 075106 (2003) [12 pages].
    E-print: cond-mat/0208480.

  20. Differences Between Hole and Electron Doping of a Two-Leg CuO Ladder
    S. Nishimoto, E. Jeckelmann, and D.J. Scalapino, Phys. Rev. B 66, 245109 (2002) [8 pages].
    E-print: cond-mat/0208189.

  21. Ground-state phase diagram of a half-filled one-dimensional extended Hubbard model
    E. Jeckelmann, Phys. Rev. Lett. 89, 236401 (2002).
    E-print: cond-mat/0204244.

  22. Dynamical density-matrix renormalization-group method
    E. Jeckelmann, Phys. Rev. B 66, 045114 (2002) [16 pages].
    E-print: cond-mat/0203500.

  23. Application of the density matrix renormalization group in momentum space
    S. Nishimoto, E. Jeckelmann, F. Gebhard, and R.M. Noack, Phys. Rev. B 65, 165114 (2002) [12 pages].
    E-print: cond-mat/0110420.

  24. Excitons in one-dimensional Mott insulators
    F.H.L. Essler, F. Gebhard, and E. Jeckelmann, Phys. Rev. B 64, 125119 (2001) [15 pages].
    E-print: cond-mat/0103406.

  25. Optical Conductivity of the Half-Filled Hubbard Chain
    E. Jeckelmann, F. Gebhard, and F.H.L. Essler, Phys. Rev. Lett. 85, pp. 3910-3913 (2000).
    E-print: cond-mat/9911281.

  26. Stripes in a three-chain Hubbard ladder: a comparison of density-matrix renormalization group and constrained-path Monte Carlo results
    J. Bonca, J.E. Gubernatis, M. Guerrero, E. Jeckelmann, and S.R. White, Phys. Rev. B 61, pp. 3251-3254 (2000).
    E-print: cond-mat/9712018.

  27. Matrix-product approach to conjugated polymers
    M.A. Martin-Delgado, G. Sierra, S. Pleutin, and E. Jeckelmann, Phys. Rev. B 61, pp. 1841-1846 (2000).
    E-print: cond-mat/9908066.

  28. Dynamical properties of the one-dimensional Holstein model
    Chunli Zhang, Eric Jeckelmann, and Steven R. White, Phys. Rev. B 60, pp. 14092-14104 (1999).
    E-print: cond-mat/9812353.

  29. Metal-insulator transition in the one-dimensional Holstein model at half filling
    Eric Jeckelmann, Chunli Zhang, and Steven R. White, Phys. Rev. B 60, pp. 7950-7955 (1999).
    E-print: cond-mat/9903149.

  30. Comparison of different ladder models
    E. Jeckelmann, D.J. Scalapino, and S.R. White, Phys. Rev. B 58, pp. 9492-9497 (1998).
    E-print: cond-mat/9805116.

  31. Mott-Peierls transition in the extended Peierls-Hubbard model
    Eric Jeckelmann, Phys. Rev. B 57, pp. 11838-11841 (1998).
    E-print: cond-mat/9711266.

  32. Density Matrix Approach to Local Hilbert Space Reduction
    C. Zhang, E. Jeckelmann, and S.R. White, Phys. Rev. Lett. 80, pp. 2661-2664 (1998).
    E-print: cond-mat/9709187.

  33. Density-matrix renormalization group study of the polaron problem in the Holstein model
    E. Jeckelmann and S.R. White, Phys. Rev. B 57, pp. 6376-6385 (1998).
    E-print: cond-mat/9710058.

  34. The metal-insulator transition in polyacetylene: variational study of the Peierls-Hubbard model
    E. Jeckelmann and D. Baeriswyl, Synthetic Metals 65, pp. 211-224 (1994).


Lecture notes, book contributions, and review articles

  1. Density-matrix renormalization group methods for momentum- and frequency-resolved dynamical correlation functions
    E. Jeckelmann, Progress of Theoretical Physics Supplement 176, pp. 143-164 (2008).
    E-print: arXiv:0808.2620 [cond-mat.str-el].

  2. Density-matrix renormalization group algorithms
    E. Jeckelmann in Computational Many Particle Physics, H. Fehske, R. Schneider, and A. Weiße (Eds.), Lecture Notes in Physics 739, pp. 597-619, Springer-Verlag, Berlin, Heidelberg, 2008.
    Preprint. The original publication is available at www.springeronline.com/978-3-540-74685-0.

  3. Dynamical density-matrix renormalization group
    E. Jeckelmann and H. Benthien in Computational Many Particle Physics, H. Fehske, R. Schneider, and A. Weiße (Eds.), Lecture Notes in Physics 739, pp. 621-635, Springer-Verlag, Berlin, Heidelberg, 2008.
    Preprint. The original publication is available at www.springeronline.com/978-3-540-74685-0.

  4. Exact numerical methods for electron-phonon problems
    E. Jeckelmann and H. Fehske, in Proceedings of the International School of Physics "Enrico Fermi" - Course CLXI Polarons in Bulk Materials and Systems with Reduced Dimensionality edited by G. Iadonisi, J. Ranninger, and G. De Filippis, pp. 247-284, IOS Press, Amsterdam, 2006.
    Also published in Rivista del Nuovo Cimento 30, pp.259-292 (2007).
    E-print: cond-mat/0510637.

  5. Quantum phase transition in one-dimensional electron-phonon systems
    H. Fehske and E. Jeckelmann, in Proceedings of the International School of Physics "Enrico Fermi" - Course CLXI Polarons in Bulk Materials and Systems with Reduced Dimensionality, edited by G. Iadonisi, J. Ranninger, and G. De Filippis, pp. 297-311, IOS Press, Amsterdam, 2006.
    E-print: cond-mat/0510741.


Refereed conference proceedings published since 2006

  1. Density-matrix renormalization group study of the electro-absorption in conjugated polymers
    A.O. Abdelwhab, E. Jeckelmann and A. Artoli, Proceedings of SAIP2011, the 56th Annual Conference of the South African Institute of Physics, edited by I. Basson and A.E. Botha (University of South Africa, Pretoria, 2011), pp. 746 - 751. ISBN: 978-1-86888-688-3. Available online at http://www.saip.org.za.

  2. Circulating-current phase in the three-band model for two-leg CuO ladders
    S. Nishimoto, E. Jeckelmann and D.J. Scalapino, Physica C: Superconductivity, Volume 470, Supplement 1, pp. 53-54 (2010).

  3. The spin-Peierls chain revisited
    Georg Hager, Alexander Weiße, Gerhard Wellein, E. Jeckelmann, and H. Fehske, J. Magn. Magn. Mater. 310, pp. 1380-1382 (2007); Erratum 316, p. 43 (2007).
    E-print: cond-mat/0606360.

  4. Hole doped Hubbard ladders
    H. Fehske, G. Hager, G. Wellein, and E. Jeckelmann, Physica B: Condensed Matter, Volumes 378-380, pp. 319-320 (2006).
    E-print: cond-mat/0505666.

  5. Dynamical mean-field theory calculation with the dynamical density-matrix renormalization group
    Satoshi Nishimoto, Florian Gebhard, and Eric Jeckelmann, Physica B: Condensed Matter, Volumes 378-380, pp. 283-285 (2006).


Other conference proceedings

  1. Electronic structure and fluctuation effects in the spin-1/2 quantum magnet TiOCl
    M. Sing, M. Hoinkis, J. Schaefer, M. Klemm, S. Horn, H. Benthien, E. Jeckelmann, L. Pisani, R. Valenti, R. Claessen, in J. Phys. IV France 131, 331-334 (2005).

  2. DMRG Investigations of Stripe Formation in Doped Hubbard Ladders
    Georg Hager, Gerhard Wellein, Eric Jeckelmann, and Holger Fehske, in High Performance Computing in Science and Engineering, edited by S. Wagner, W. Hanke, A. Bode, and F. Durst, Springer, Berlin, 2004.
    Preprint.

  3. Exact Numerical Treatment of Finite Quantum Systems using Leading-Edge Supercomputers
    G. Hager, E. Jeckelmann, H.Fehske, and G. Wellein, in Modelling, Simulation and Optimization of Complex Processes, edited by H.G. Bock, E. Kostina, H.-X. Phu, and R. Rannacher, Springer, Heidelberg, 2005, pp. 165-177.
    Preprint.

  4. Density-matrix renormalization group for dynamic correlation functions
    E. Jeckelmann, in Advances in Quantum Many-Body Theory, Volume 6, edited by R.F. Bishop, T. Brandes, K.A. Gernoth, N.R. Walet, and Y. Xian, World Scientific, Singapore, 2002.
    Also published in Int. J. Mod. Phys. 17, pp. 5453-5457 (2003).
    Preprint.

  5. The Recurrent Variational Approach applied to the Electronic Structure of Conjugated Polymers
    S. Pleutin, E. Jeckelmann, M.A. Martin-Delgado, and G. Sierra, in New Trends in Quantum Systems in Chemistry and Physics: 2. Advanced Problems and Complex Systems , edited by J. Maruani, C. Minot, R. McWeeny, Y.G. Smeyers, and S. Wilson, in the Book Serie Progress in Theoretical Chemistry and Physics, Volume 7, Kluwer Academic Publishers, Dordrecht, 2000.
    E-print: cond-mat/9908062.

  6. Methods for Electron-Phonon Systems
    Eric Jeckelmann, Chunli Zhang, and Steven R. White, in I. Peschel, X. Wang, M. Kaulke, and K. Hallberg (Eds.), Density-Matrix Renormalization, A New Numerical Method in Physics in the Serie Lecture Notes in Physics , Springer, Berlin, 1999.

  7. Bond Alternation in pi-Conjugated Materials
    D. Baeriswyl and E. Jeckelmann, in Materials Science Forum Vol. 191, pp. 71-80, Trans Tech Publications, Switzerland, 1995.

  8. The Hubbard model and its application to conjugated pi-electron systems
    D. Baeriswyl and E. Jeckelmann, in The Hubbard Model, edited by D. Baeriswyl et al., pp. 393-400, Plenum Press, New York, 1995.

  9. Solitons in the one-dimensional Peierls-Hubbard model
    E. Jeckelmann and D. Baeriswyl, in Synthetic Metals 69, pp. 651-653 (1995).

  10. Variational treatment of the one-dimensional Peierls-Hubbard model: lattice dimerization and solitons
    E. Jeckelmann, D. Baeriswyl, and X. Zotos, in Synthetic Metals 55-57, pp. 4249-4254 (1993).

  11. On the Semiconductor-Metal Transition in Conducting Polymers
    D. Baeriswyl and E. Jeckelmann, in H. Kuzmany, M. Mehring, and S. Roth (Eds.), Electronic Properties of Polymers, Springer Series in Solid-State Science Vol. 107, pp. 16-20, Springer, Berlin, 1992.


Habilitation thesis

Dynamical Density-Matrix Renormalization Group, University of Marburg (Germany), 2003.

PhD thesis (in French)

Le rôle des corrélations électroniques dans le polyacétylène: Etude variationnelle du modèle de Peierls-Hubbard, University of Fribourg (Switzerland), 1995.
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