Function
Researcher
CV
Dr. Marcelo Fabián Goffman is a member of the Laboratoire d’Electronique Moléculaire since 2001. Expert for French funding agency and the OMNT Nano-ElectroMechanical Systems group. He obtained his Ph.D. degree in Solid State Physics at Instituto Balseiro, Bariloche, Argentine in 1997 working on the properties of vortices in high temperature superconductors. He received, in 1998, an honorary mention of the “J J Giambiagi” prize of the Argentinean academy of physics for his thesis work. He worked as a postdoctoral fellow (1998-2000) in the Quantronics Group of M. Devoret, D. Esteve and C Urbina at SPEC-CEA Saclay (France), on electronic transport through single atoms. Its interests as experimentalist in nano-physics are focused on the understanding of the electronic transport through single molecules and carbon nanotube based devices. Teaching activities at the graduate level in nanoelectronics. Longstanding achievements of successful training of Ph-D students (2 completed, 2 presently running). He is the author and co-author of 28 scientific peer-reviewed papers, 2 book chapters and 2 patents.
Selected Scientific Publications
Chemical optimization of self-assembled carbon nanotube transistors.
S. Auvray, V. Derycke, M. F. Goffman, A. Filoramo, O. Jost and J.P. Bourgoin, Nanolett. 5, 451 (2005).
J. P. Bourgoin, A. Filoramo, M. F. Goffman et D. Villaume, chapitre: Electronique Moléculaire dans le livre: Les Nanosciences, Nanotechnologies et Nanophysique “, Editions Belin 2004.
Carbon nanotube transistor optimization by chemical control of the nanotube-metal interface. S. Auvray, ] J. Borghetti, M. F. Goffman, A. Filoramo, V. Derycke, J.P. Bourgoin and O. Jost,
Applied Physics Letters 84, 5106 (2004).
Multiple Charge Quanta Shot Noise in Superconducting Atomic Point Contacts.
R. Cron, M. F. Goffman, D. Esteve and C. Urbina, Phys. Rev. Lett. 86, 4104 (2001).
Supercurrent in Atomic Contacts and Andreev States.
M. F. Goffman, R. Cron, A. Levy Yeyati, P. Joyez, M. H. Devoret, D. Esteve and C. Urbina, Phys. Rev. Lett. 85, 170 (2000).
Vortex Phase Diagram of Bi2Sr2CaCu2O8: c Axis Superconducting Correlation in the Different Vortex Phases.
M. F. Goffman, A. Herbsommer, F. de la Cruz, T. W. Li and P. H. Kes, Phys. Rev. B 57, 3663 (1998).
First Order Phase Transition at the Irreversibility Line of Bi2Sr2CaCu2O8,
H. Pastoriza, M. F. Goffman, A. Arribére, and F. de la Cruz, Phys. Rev. Lett. 72, 2951 (1994).
Teaching
“European Summer University: Fundamentals of Nanoscience” Tutorial on: “Electronic transport of nano-objects”, July 6-13 (2003), Strasbourg, France.
“Dynamics of interacting electrons in quantum wires” Overview on: “Electronic Transport through small molecules”, 27 septembre 4 october (2003), Miraflores, Spain.
“European School on nanosciences & nanotechnologies” : Cours on: “Molecular Electronics” 8-10 septembre (2004), Grenoble, France.
“European School on nanosciences & nanotechnologies” : Cours on: “Molecular Electronics” 6-8 septembre (2005), Grenoble, France.
“European School on nanosciences & nanotechnologies” : Cours on: “Molecular Electronics” 11-13 septembre (2006), Grenoble, France.
“European School on nanosciences & nanotechnologies” : Cours on: “Molecular Electronics” 12-14 septembre (2007), Grenoble, France.
“European School on nanosciences & nanotechnologies” : Cours on: “Molecular Electronics” 10-12 septembre (2008), Grenoble, France.
Patents
Procédé pour modifier au moins une propriete electrique d’un nanotube ou d’un nanofil et transistor incorporant celui-ci / Process for modifying at least one electrical property of a carbon nanotube and a transistor incorporating it
S. Auvray, J. Borghetti, M. F. Goffman, V. Dericke et J. P. Bourgoin,
Brevet international CEA WO/2004/094308, avril 2003.
Dispositif semiconducteur à nanotube ou nanofil, configurable optiquement / Optically-configurable nanotube or nanowire semiconductor device
J. Borghetti, JP. Bourgoin, P. Chenevier, V. Derycke, A. Filoramo, M. Goffman,
Brevet international WO/2006/018497, déposé le 20/07/2004.