Seminars
September 2, 2014
EFI SHAHMOON 'Dipolar Forces in Waveguides: From Casimir Physics to Non-Additivity'
EFI SHAHMOON 'Dipolar Forces in Waveguides: From Casimir Physics to Non-Additivity'
EFI SHAHMOON
Weizmann Institute of Science, ISRAEL
Seminar, September 2, 2014, 15:00. Seminar Room
EFI SHAHMOON
Weizmann Institute of Science, ISRAEL
EFI SHAHMOON
Weizmann Institute of Science, ISRAEL
Dipolar interactions lie at the basis of a variety of phenomena in physics and chemistry, ranging from fundamental quantum vacuum forces all the way to emerging quantum technologies. This work concerns the important possibility to drastically modify these dipole-dipole interactions, thus potentially affecting much of the above phenomena: Since the interactions between dipoles are mediated by (virtual) photon modes, they can be enhanced by considering dipoles embedded in geometries that confine these modes. In this context, I will present our results on the possibilities for giant van der Waals and Casimir interactions via transmission lines and non-additive many-body physics with laser-induced interactions in optical fibers.
Seminar, September 2, 2014, 15:00. Seminar Room
Hosted by Prof. Darrick Chang
Seminar, September 2, 2014, 15:00. Seminar Room
Hosted by Prof. Darrick Chang
Seminars
September 2, 2014
EFI SHAHMOON 'Dipolar Forces in Waveguides: From Casimir Physics to Non-Additivity'
EFI SHAHMOON 'Dipolar Forces in Waveguides: From Casimir Physics to Non-Additivity'
EFI SHAHMOON
Weizmann Institute of Science, ISRAEL
Seminar, September 2, 2014, 15:00. Seminar Room
EFI SHAHMOON
Weizmann Institute of Science, ISRAEL
EFI SHAHMOON
Weizmann Institute of Science, ISRAEL
Dipolar interactions lie at the basis of a variety of phenomena in physics and chemistry, ranging from fundamental quantum vacuum forces all the way to emerging quantum technologies. This work concerns the important possibility to drastically modify these dipole-dipole interactions, thus potentially affecting much of the above phenomena: Since the interactions between dipoles are mediated by (virtual) photon modes, they can be enhanced by considering dipoles embedded in geometries that confine these modes. In this context, I will present our results on the possibilities for giant van der Waals and Casimir interactions via transmission lines and non-additive many-body physics with laser-induced interactions in optical fibers.
Seminar, September 2, 2014, 15:00. Seminar Room
Hosted by Prof. Darrick Chang
Seminar, September 2, 2014, 15:00. Seminar Room
Hosted by Prof. Darrick Chang