F
Fred Reinholz
Researcher at University of Lübeck
Publications - 28
Citations - 520
Fred Reinholz is an academic researcher from University of Lübeck. The author has contributed to research in topics: Laser & Fundus (eye). The author has an hindex of 12, co-authored 28 publications receiving 493 citations. Previous affiliations of Fred Reinholz include University of Oxford & University of Western Australia.
Papers
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Journal ArticleDOI
In vivo fluorescence imaging of primate retinal ganglion cells and retinal pigment epithelial cells
Daniel C. Gray,William H. Merigan,Jessica I. Wolfing,Bernard P. Gee,Jason Porter,Alfredo Dubra,Ted Twietmeyer,Kamran Ahamd,Remy Tumbar,Fred Reinholz,David R. Williams +10 more
TL;DR: A new instrument for high-resolution, in vivo imaging of the mammalian retina that combines the benefits of confocal detection, adaptive optics, multispectral, and fluorescence imaging is described.
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In-vivo retinal imaging with off-axis full-field time-domain optical coherence tomography.
Helge Sudkamp,Peter Koch,Hendrik Spahr,Dierck Hillmann,Gesa Franke,Michael Münst,Fred Reinholz,Reginald Birngruber,Gereon Hüttmann +8 more
TL;DR: A novel motion-insensitive approach to FF-OCT is presented, which introduces path-length differences between the reference and the sample light in neighboring pixels using an off-axis reference beam, and the temporal carrier frequency in scanned time-domain OCT is replaced by a spatial carrier frequency.
Journal Article
Investigation of corneal ablation efficiency using ultraviolet 213-nm solid state laser pulses.
TL;DR: It is confirmed that the corneal ablation properties at 213 nm are comparable with those at the 193-nm excimer laser wavelength, and a solid state laser is feasible to replace the excimer gas laser for performing refractive surgery procedures.
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Two-photon microscopy using fiber-based nanosecond excitation
TL;DR: This work derives and demonstrates that at given cw-power the TPEF signal only depends on the duty cycle of the laser source, and can also demonstrate single shot two-photon fluorescence lifetime measurements.
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Absorption of 193- and 213-nm laser wavelengths in sodium chloride solution and balanced salt solution.
TL;DR: The increased penetration depth through sodium chloride solution and balanced salt solution for the longer 213-nm laser wavelength may mean that these solutions cannot be used as a masking agent for keratorefractive procedures performed with this wavelength.