H
Hope M Queener
Researcher at University of Houston
Publications - 30
Citations - 1415
Hope M Queener is an academic researcher from University of Houston. The author has contributed to research in topics: Adaptive optics & Deformable mirror. The author has an hindex of 10, co-authored 30 publications receiving 1297 citations. Previous affiliations of Hope M Queener include University of Houston System.
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Journal ArticleDOI
Adaptive optics scanning laser ophthalmoscopy
Austin Roorda,Fernando Romero-Borja,William J. Donnelly,Hope M Queener,T.J. Hebert,Melanie C. W. Campbell +5 more
TL;DR: The first scanning laser ophthalmoscope that uses adaptive optics to measure and correct the high order aberrations of the human eye is presented, permitting axial sectioning of retinal tissue in vivo.
Journal ArticleDOI
Wavefront sensorless adaptive optics ophthalmoscopy in the human eye
TL;DR: Real-time (25 Hz), wavefront sensorless adaptive optics imaging in the living human eye with image quality rivaling that of wave front sensor based control in the same system is demonstrated.
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Reproducibility of measuring lamina cribrosa pore geometry in human and nonhuman primates with in vivo adaptive optics imaging.
Kevin M. Ivers,Chaohong Li,Nimesh B. Patel,Nripun Sredar,Xunda Luo,Hope M Queener,Ronald S. Harwerth,Jason Porter +7 more
TL;DR: The small intersession variability in normal pore geometry suggests that AOSLO imaging could be used to measure and track changes in laminar pores in vivo during glaucomatous progression.
Journal ArticleDOI
Attenuation of short wavelengths alters sleep and the ipRGC pupil response
TL;DR: This study sought to investigate whether melatonin level and sleep quality can be modulated by decreasing night-time input to the intrinsically photosensitive retinal ganglion cells.
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A correction algorithm to simultaneously control dual deformable mirrors in a woofer-tweeter adaptive optics system
TL;DR: A direct slope-based correction algorithm to simultaneously control two deformable mirrors (DMs) in a woofer-tweeter adaptive optics system is presented, comparable to 2-step control, but is more efficient.