Real-time quantitative phase and dual-channel fluorescence microscopy for studying cellular and biomolecular dynamics
Publication
, Journal Article
Rinehart, MT; Shaked, NT; Satterwhite, L; Wax, A
Published in: Optics InfoBase Conference Papers
2011
We have developed a microscope that simultaneously captures quantitative phase measurements and two distinct fluorescence images on a single camera. This microscope is an effective tool for investigating cellular dynamics with molecular specificity. © 2011 Optical Society of America.
Duke Scholars
Published In
Optics InfoBase Conference Papers
EISSN
2162-2701
Publication Date
2011
Publisher
Optical Society of America
Citation
APA
Chicago
ICMJE
MLA
NLM
Rinehart, M. T., Shaked, N. T., Satterwhite, L., & Wax, A. (2011). Real-time quantitative phase and dual-channel fluorescence microscopy for studying cellular and biomolecular dynamics. Optics InfoBase Conference Papers.
Rinehart, M. T., N. T. Shaked, L. Satterwhite, and A. Wax. “Real-time quantitative phase and dual-channel fluorescence microscopy for studying cellular and biomolecular dynamics.” Optics InfoBase Conference Papers, 2011.
Rinehart MT, Shaked NT, Satterwhite L, Wax A. Real-time quantitative phase and dual-channel fluorescence microscopy for studying cellular and biomolecular dynamics. Optics InfoBase Conference Papers. 2011;
Rinehart, M. T., et al. “Real-time quantitative phase and dual-channel fluorescence microscopy for studying cellular and biomolecular dynamics.” Optics InfoBase Conference Papers, Optical Society of America, 2011.
Rinehart MT, Shaked NT, Satterwhite L, Wax A. Real-time quantitative phase and dual-channel fluorescence microscopy for studying cellular and biomolecular dynamics. Optics InfoBase Conference Papers. Optical Society of America; 2011;
Published In
Optics InfoBase Conference Papers
EISSN
2162-2701
Publication Date
2011
Publisher
Optical Society of America