Université de technologie de Troyes

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23 / 10 / 2017
Workshop LNIO INSP
05 / 04 / 2017
Visite Virtuelle du LNIO
08 / 09 / 2016
NFO-15 à Troyes en 2018
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Contenu

Rémi VINCENT
Rémi VINCENT
Research Area: Materials science and Nano-optics

Research Focus: Magneto-plasmonic, Fluorescence, Plasmonic Sensors

Actual Projects:

Thesis Project: 

Optimization and integration of an ultra compact spectrometer for the realization of networks nano-bio-captors for real time sensors

 

 News:

 Master internship proposal (Grant: 396€/month) : Exploration of the atomistic frontier for plasmonic devices (18/03/2013)

 

Curriculum vitae: 

Publications by topic:


In Nano-Optics

1. S. Derom, R. Vincent, A. Bouhelier and G. Colas des Francs. Resonance quality, radiative/ohmic losses and modal volume of Mie plasmons, EPL 98 47008, (2012).
2. G. Colas des Francs, S. Derom, R. Vincent, and co. Mie plasmons: modes volumes, quality factors and coupling strengths (Purcell factor) to a dipolar emitter, International Journal of Optics, vol. 2012, 175162, (2012).
3. E. Castanie, R. Vincent, R. Pierrat, and R. Carminati. Absorption by an optical dipole antenna in a structured environment, Intern. J. of Opt. 2012, 452047 (2012).
4. R. Vincent, and R. Carminati. Magneto-optical control of Förster energy transfer, Physical Review B, 83, 165426 (2011).


In Materials Science

5. I. Nagy, R. Vincent, J.I. Juaristi, and P. M. Echenique. Energy loss straggling of swift heavy ions in an electron gas: Comparison of classical and quantum-mechanical results. Physical Review A, 78, 012902 (2008).
6. R. Vincent, A. Lodder, I. Nagy, and P. M. Etchenique. Description of a migrating proton embedded in an electron gas. Journal of Physics C, 20, 285218 (2008).n and integration of an ultra compact spectrometer for the realization of networks nano-bio-captors for real time sensors.

7. R. Vincent, I. Nagy and E. Zaremba. Strength of dipolar backflow pattern around slow protons in three- and two-dimensional electron gases. Physical Review B, 76, 073301-1 (2007).
8. R. Vincent, and I. Nagy. Stopping power of a degenerate electron gas for slow ions: Role of relative kinematics in Z1-oscillation below the Fermi velocity. Nucl. Instr. and Methods B, 256, 182-186 (2007).
9. R. Vincent, J. I. Juaristi, and I. Nagy. Z1 oscillations in the spin polarization of electrons excited by slow ions in a spin-polarized electron gas. Nucl. Instr. and Methods B, 258, 79-82 (2007).
10. R. Vincent, and I. Nagy. Stopping power of a degenerate electron gas for slow ions: Influence of relative kinematics on Z1-oscillation. Physical Review B, 74, 073302 (2006).
11. R. Vincent, J.I. Juaristi, I. Nagy.Transport cross sections based on a screened interaction potential: Comparison of classical and quantummechanical results. Physical Review A, 71, 062902 (2005).
12. R. Vincent, and J.I. Juaristi. Charge state dependent kinetic electron emission induced by slow Nq+ ions in a spin-polarized electron gas. Nucl. Instr. and Methods B, 232, 67-72 (2005).

 

Collaborations:

Laboratoire interdisciplinaire Carnot de Bourgogne, Institut Langevin