Details zur Lehrveranstaltung
Nanooptics - MC Nanobiophysics | |
Modul: | Phy-Ma-Vert: Physikalische Vertiefung |
Lecture language | English |
Summary of Lecture: | Nanooptics describes optical phenomena occurring on the length scale below the diffraction limit of approximately half the wavelength. Optical interaction between fluorescent molecules, between molecules and a metallic (plasmonic) or dielectric (phononic) surface such as a nanoparticle, or the effect of surface enhanced Raman scattering used for nanoscale surface analysis, all base on this optical far- and near-field coupling effects. As such, nanooptics has the power of providing optical characterization on the 10 nm length scale, thus being applicable in many new fields and nanodevices. Of importance, however, is the understanding and interplay of different physical effects such as damping, electric field enhancement, radiative and non-radiative transitions, and others more. This lecture will provide the necessary background, as well as the view into prospective applications. |
data set up-to-date | |
Scope: | lecture: 2 hours/week |
Time/location: | MO(4) REC/B214 |
Audience: | Vertiefung Bachelor (PV) und Master (alle) |
Specialization area: | Angewandte Festkörperphysik und Photonik (Vorlesung im Wahlpflichtvertiefungsgebiet, obligatorisch) |
Weiche kondensierte Materie und biologische Physik (Vorlesung im Wahlpflichtvertiefungsgebiet, masterartig) | |
Previous knowledge: | Physics 1-3, Atom- & Molecular Phyiscs | Certificate: | Oral Exam |
Enrolment: | |
Web-reference: | https://bildungsportal.sachsen.de/opal/home/?13&ajax=true |
Lecture in English RECOMMENDED LITERATURE 1.) Principles of Nano-optics, L. Novotny and B. Hecht, Cambridge University Press, 2006. 2.) Near-field Nano/Atom Optics and Technology, M. Ohtsu, Springer, 1998. 3.) Near-field optics, M. Paesler and P.J. Moyer, John Wiley & Sons, 1996. |