Optical Sciences

Biomolecules and nanostructures

The Optical Sciences group studies the interaction of light and matter. Our current focus is on detection and sensing/imaging with an emphasis on the development of integrated photonics. We are part of Twente University's Department of Science and Technology and member of the MESA+ institute.


Background-free nonlinear microspectroscopy with vibrational molecular interferometry

(full pdf)

Erik T. Garbacik, Jeroen P. Korterik, Cees Otto, Shaul Mukamel, Jennifer L. Herek, and Herman L. Offerhaus
SPIE proceedings
vol. 8226, p822605 feb. 09, 2012

We demonstrate a method for performing nonlinear microspectroscopy that provides an intuitive and unified description of the various signal contributions, and allows the direct extraction of the vibrational response. Three optical fields create a pair of Stokes Raman pathways that interfere in the same vibrational state. Frequency modulating one of the fields leads to amplitude modulations on all of the fields. This vibrational molecular
interferometry (VMI) technique allows imaging at high speed free of non-resonant background, and is able to distinguish between electronic and vibrational contributions to the total signal.

Keywords: Nonlinear optics, coherent anti-Stokes Raman scattering, spectroscopy, microscopy, dissipative, phase modulation
Printable version