A Fiber-Based Ratiometric Optical Cardiac Mapping Channel using a Diffraction Grating and Split Detector
Publication
, Journal Article
Brown, NH; Dobrovolny, HM; Gauthier, DJ; Wolf, PD
Published in: Biophys. J.
July 2007
Duke Scholars
Published In
Biophys. J.
Publication Date
July 2007
Volume
93
Start / End Page
254
Related Subject Headings
- Sensitivity and Specificity
- Reproducibility of Results
- Refractometry
- Rabbits
- Optical Fibers
- Male
- Heart Conduction System
- Fiber Optic Technology
- Equipment Failure Analysis
- Equipment Design
Citation
APA
Chicago
ICMJE
MLA
NLM
Brown, N. H., Dobrovolny, H. M., Gauthier, D. J., & Wolf, P. D. (2007). A Fiber-Based Ratiometric Optical Cardiac Mapping Channel using a Diffraction Grating and Split Detector. Biophys. J., 93, 254.
Brown, N. H., H. M. Dobrovolny, D. J. Gauthier, and P. D. Wolf. “A Fiber-Based Ratiometric Optical Cardiac Mapping Channel using a Diffraction Grating and Split Detector.” Biophys. J. 93 (July 2007): 254.
Brown NH, Dobrovolny HM, Gauthier DJ, Wolf PD. A Fiber-Based Ratiometric Optical Cardiac Mapping Channel using a Diffraction Grating and Split Detector. Biophys J. 2007 Jul;93:254.
Brown, N. H., et al. “A Fiber-Based Ratiometric Optical Cardiac Mapping Channel using a Diffraction Grating and Split Detector.” Biophys. J., vol. 93, July 2007, p. 254.
Brown NH, Dobrovolny HM, Gauthier DJ, Wolf PD. A Fiber-Based Ratiometric Optical Cardiac Mapping Channel using a Diffraction Grating and Split Detector. Biophys J. 2007 Jul;93:254.
Published In
Biophys. J.
Publication Date
July 2007
Volume
93
Start / End Page
254
Related Subject Headings
- Sensitivity and Specificity
- Reproducibility of Results
- Refractometry
- Rabbits
- Optical Fibers
- Male
- Heart Conduction System
- Fiber Optic Technology
- Equipment Failure Analysis
- Equipment Design