All Stories

  1. Using Kondo entanglement to induce spin correlations between disconnected quantum dots

    Article • Journal of Applied Physics, April 2024, American Institute of Physics

    Dr. C. A. Büsser

  2. Band structure of nanotubes with spin-orbit interaction

    Article • Journal of Applied Physics, July 2023, American Institute of Physics

    Dr. C. A. Büsser

  3. Kondo versus indirect exchange: Role of lattice and actual range of RKKY interactions in real materials

    Article • Physical Review B, February 2015, American Physical Society (APS)

    Dr. C. A. Büsser

  4. Decoherence of an entangled state of a strongly correlated double quantum dot structure through tunneling processes

    Article • Physical Review B, November 2014, American Physical Society (APS)

    Dr. C. A. Büsser

  5. Spin filtering in a double quantum dot device: Numerical renormalization group study of the internal structure of the Kondo state

    Article • Applied Physics Letters, March 2014, American Institute of Physics

    Dr. C. A. Büsser

  6. Inducing Spin Correlations and Entanglement in a Double Quantum Dot through Nonequilibrium Transport

    Article • Physical Review Letters, December 2013, American Physical Society (APS)

    Dr. C. A. Büsser

  7. Lanczos transformation for quantum impurity problems ind-dimensional lattices: Application to graphene nanoribbons

    Article • Physical Review B, December 2013, American Physical Society (APS)

    Dr. C. A. Büsser

  8. Designing a symmetry-protected molecular device

    Article • Physical Review B, October 2012, American Physical Society (APS)

    Dr. C. A. Büsser

  9. Electrostatic control over polarized currents through the spin-orbital Kondo effect

    Article • Physical Review B, June 2012, American Physical Society (APS)

    Dr. C. A. Büsser

  10. Reducing entanglement with symmetries: Application to persistent currents in impurity problems

    Article • Physical Review B, September 2011, American Physical Society (APS)

    Dr. C. A. Büsser

  11. Transport in carbon nanotubes: Two-level SU(2) regime reveals subtle competition between Kondo and intermediate valence states

    Article • Physical Review B, March 2011, American Physical Society (APS)

    Dr. C. A. Büsser

  12. Numerical analysis of the spatial range of the Kondo effect

    Article • Physical Review B, January 2010, American Physical Society (APS)

    Dr. C. A. Büsser

  13. A Perturbation Expansion Method to Study Highly Correlated Spins

    Article • Journal of Superconductivity and Novel Magnetism, November 2009, Springer Science + Business Media

    Dr. C. A. Büsser

  14. The logarithmic discretization embedded cluster approximation

    Article • Physica B Condensed Matter, October 2009, Elsevier

    Dr. C. A. Büsser

  15. ELECTRON TRANSPORT IN STRONGLY CORRELATED NANOSTRUCTURES

    Article • Modern Physics Letters B, July 2009, World Scientific Pub Co Pte Lt

    Dr. C. A. Büsser

  16. Kondo regime in triangular arrangements of quantum dots: Molecular orbitals, interference, and contact effects

    Article • Physical Review B, July 2009, American Physical Society (APS)

    Dr. C. A. Büsser

  17. Transport through quantum dots: a combined DMRG and embedded-cluster approximation study

    Article • Zeitschrift für Physik B Condensed Matter and Quanta, February 2009, Springer Science + Business Media

    Dr. C. A. Büsser

  18. Transport properties and Kondo correlations in nanostructures: Time-dependent DMRG method applied to quantum dots coupled to Wilson chains

    Article • Physical Review B, November 2008, American Physical Society (APS)

    Dr. C. A. Büsser

  19. Unscreened Coulomb Interactions and the Quantum Spin Hall Phase in Neutral Zigzag Graphene Ribbons

    Article • Physical Review Letters, November 2008, American Physical Society (APS)

    Dr. C. A. Büsser

  20. Method to study highly correlated nanostructures: The logarithmic-discretization embedded-cluster approximation

    Article • Physical Review B, August 2008, American Physical Society (APS)

    Dr. C. A. Büsser

  21. Half-filling SU(4) Kondo state in carbon nanotubes: Numerical results

    Article • Physica B Condensed Matter, April 2008, Elsevier

    Dr. C. A. Büsser

  22. Numerical results indicate a half-filling SU(4) Kondo state in carbon nanotubes

    Article • Physical Review B, January 2007, American Physical Society (APS)

    Dr. C. A. Büsser

  23. Transport properties of strongly correlated electrons in quantum dots using a simple circuit model

    Article • Brazilian Journal of Physics, September 2006, FapUNIFESP (SciELO)

    Dr. C. A. Büsser

  24. Adaptive time-dependent density-matrix renormalization-group technique for calculating the conductance of strongly correlated nanostructures

    Article • Physical Review B, May 2006, American Physical Society (APS)

    Dr. C. A. Büsser

  25. Transport Properties of Strongly Correlated Electrons in Quantum Dots Studied with a Simple Circuit Model

    Article • Physical Review Letters, February 2006, American Physical Society (APS)

    Dr. C. A. Büsser

  26. Transport Properties of Strongly Correlated Electrons in Quantum Dots Using a Simple Circuit Model

    Article • January 2006, American Institute of Physics

    Dr. C. A. Büsser

  27. Electron Transport through a Molecular Conductor with Center-of-Mass Motion

    Article • Physical Review Letters, December 2005, American Physical Society (APS)

    Dr. C. A. Büsser

  28. Prediction of Ferromagnetic Correlations in Coupled Double-Level Quantum Dots

    Article • Physical Review Letters, January 2005, American Physical Society (APS)

    Dr. C. A. Büsser

  29. Interference effects in the conductance of multilevel quantum dots

    Article • Physical Review B, December 2004, American Physical Society (APS)

    Dr. C. A. Büsser

  30. Effect of topology on the transport properties of two interacting dots

    Article • Zeitschrift für Physik B Condensed Matter and Quanta, August 2004, Springer Science + Business Media

    Dr. C. A. Büsser

  31. Conductance dip in the Kondo regime of linear arrays of quantum dots

    Article • Physical Review B, July 2004, American Physical Society (APS)

    Dr. C. A. Büsser

  32. Transport properties of Kondo-insulator alloys

    Article • December 2003, American Physical Society (APS)

    Dr. C. A. Büsser

  33. Coupled quantum dots: effect of inter-dot interactions

    Article • Microelectronics Journal, May 2003, Elsevier

    Dr. C. A. Büsser

  34. Kondo effect and persistent currents in a mesoscopic ring: Numerically exact results

    Article • July 2002, American Physical Society (APS)

    Dr. C. A. Büsser

  35. Effect of the Charge and Spin of a Lateral Quantum Dot on a Wire Current

    Article • physica status solidi (b), July 2002, Wiley

    Dr. C. A. Büsser

  36. Persistent currents in a mesoscopic ring with a side connected quantum dot

    Article • Physica B Condensed Matter, July 2002, Elsevier

    Dr. C. A. Büsser

  37. Singlet-triplet transition in a quantum dot: effect on mesoscopic transport

    Article • Physica B Condensed Matter, July 2002, Elsevier

    Dr. C. A. Büsser

  38. Quantum dot spin effect on the conductance of a quantum wire

    Article • May 2002, American Physical Society (APS)

    Dr. C. A. Büsser

  39. Effect of exhaustion on the competition Kondo-magnetism in Kondo clusters

    Article • Journal of Magnetism and Magnetic Materials, May 2001, Elsevier

    Dr. C. A. Büsser

  40. Interplay between Kondo and inter-dot magnetic correlation in coupled quantum dots

    Article • Journal of Magnetism and Magnetic Materials, May 2001, Elsevier

    Dr. C. A. Büsser

  41. Metal–non-metal transition and specific heat of Kondo insulators

    Article • Journal of Magnetism and Magnetic Materials, May 2001, Elsevier

    Dr. C. A. Büsser

  42. The metal-non-metal transition and specific heat of Kondo insulators

    Article • Journal of Physics Condensed Matter, November 2000, Institute of Physics Publishing

    Dr. C. A. Büsser

  43. Transport in coupled quantum dots: Kondo effect versus antiferromagnetic correlation

    Article • October 2000, American Physical Society (APS)

    Dr. C. A. Büsser

  44. The thermodynamical limit of strongly correlated systems obtained from small-size-cluster calculations

    Article • Journal of Physics Condensed Matter, January 1999, Institute of Physics Publishing

    Dr. C. A. Büsser

  45. Metal-insulator transition in highly correlated systems

    Article • Journal of Magnetism and Magnetic Materials, January 1998, Elsevier

    Dr. C. A. Büsser

  46. centres in low dimensions: the strong-confinement approach

    Article • Journal of Physics Condensed Matter, March 1996, Institute of Physics Publishing

    Dr. C. A. Büsser