Title :
Photonic phase control in a spinning-disk interferometer for high-speed immunoassays
Author :
Varma, M.M. ; Nolte, D.D. ; Inerowicz, H.D. ; Regnier, F.E.
Author_Institution :
Dept. of Phys., Purdue Univ., West Lafayette, IN, USA
Abstract :
We have been developing the broad-based concept of spinning-disk interferometry for high-speed multianalyte bioassays with the potential to test up to a thousand specific targets on a disk the size of an audio-CD. The operating principle of spinning-disk interferometry is diffraction off microstructured substrates to achieve phase quadrature between a local reference wave and a sample beam passing through a biolayer. We are currently using this technique to analyze amplitude and phase modulation from immobilized biolayers to determine the degree to which amplitude and phase trade off as single polarizable molecules coalesce into macroscopic dielectric films. We are also studying phase effects associated with the edge of the photonic stop-band that may allow direct quadrature detection of biomolecular films without requiring microstructuring of the substrate.
Keywords :
bio-optics; biological techniques; high-speed optical techniques; light diffraction; light interferometers; molecular biophysics; optical films; optical variables control; phase control; biomolecular films; diffraction; direct quadrature detection; high-speed immunoassay; high-speed multianalyte bioassay; immobilized biolayer; macroscopic dielectric film; phase modulation; phase quadrature; photonic phase control; photonic stop-band; polarizable molecule coalesce; spinning-disk interferometer; Dielectric films; Dielectric substrates; Diffraction; Immune system; Interferometry; Phase control; Phase detection; Phase modulation; Polarization; Testing;
Conference_Titel :
Lasers and Electro-Optics Europe, 2003. CLEO/Europe. 2003 Conference on
Print_ISBN :
0-7803-7734-6
DOI :
10.1109/CLEOE.2003.1313781
