Brian R Kimball
Overview
Explore the profile of Brian R Kimball including associated specialties, affiliations and a list of published articles.
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Articles
18
Citations
36
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Recent Articles
1.
Walsh G, De Sio L, Roberts D, Tabiryan N, Aranda F, Kimball B
Opt Lett
. 2018 May;
43(10):2256-2259.
PMID: 29762566
Parallel sorting of orbital and spin angular momentum components of structured optical beams is demonstrated. Both spin channels are multiplexed within the novel orbital angular momentum (OAM) sorter, reducing the...
2.
De Sio L, Roberts D, Liao Z, Hwang J, Tabiryan N, Steeves D, et al.
Appl Opt
. 2018 Jan;
57(1):A118-A121.
PMID: 29328136
We present and discuss opportunities opened up by a new generation of beam shaping optical elements that combine capabilities of digital spatial light polarization converters and diffractive properties of thin...
3.
Serak S, Hrozhyk U, Hwang J, Tabiryan N, Steeves D, Kimball B
Appl Opt
. 2016 Nov;
55(30):8506-8512.
PMID: 27828129
We study the opportunity of using electrohydrodynamic instabilities in a nematic liquid crystal mixture with negative dielectric anisotropy for controlling laser beams. Switching between naturally transparent and diffuse light scattering...
4.
De Sio L, Roberts D, Liao Z, Nersisyan S, Uskova O, Wickboldt L, et al.
Opt Express
. 2016 Aug;
24(16):18297-306.
PMID: 27505793
Geometrical phase or the fourth generation (4G) optics enables realization of optical components (lenses, prisms, gratings, spiral phase plates, etc.) by patterning the optical axis orientation in the plane of...
5.
Tabiryan N, Serak S, Nersisyan S, Roberts D, Zeldovich B, Steeves D, et al.
Opt Express
. 2016 May;
24(7):7091-102.
PMID: 27137003
We report on lenses that operate over the visible wavelength band from 450 nm to beyond 700 nm, and other lenses that operate over a wide region in the near-infrared...
6.
Tabiryan N, Serak S, Roberts D, Steeves D, Kimball B
Opt Express
. 2015 Oct;
23(20):25783-94.
PMID: 26480092
We present new lenses - waveplate lenses created in liquid crystal and liquid crystal polymer materials. Using an electrically-switchable liquid-crystal half-wave retarder we realized switching between focused and defocused beams...
7.
Ghebrebrhan M, Aranda F, Ziegler D, Carlson J, Perry J, Archambault D, et al.
Opt Express
. 2014 Mar;
22(3):2853-9.
PMID: 24663577
We report on a new textile metamaterial created by adding metal wires directly into the polymer yarn. Split-ring resonator-like extended states are created. Simulations revealed that the extended states can...
8.
Brunye T, Howe J, Kimball B, Eddy M, Mahoney C
Ergonomics
. 2013 Sep;
56(11):1745-53.
PMID: 24041334
This study examined the influence of liquid crystal variable transmission lenses on pupillary light reflexes in response to sudden bright light onset. Participants were exposed to bright light while pupil...
9.
Serak S, Hakobyan R, Nersisyan S, Tabiryan N, White T, Bunning T, et al.
Opt Express
. 2012 Mar;
20(5):5460-9.
PMID: 22418352
Pairs of cycloidal diffractive waveplates can be used to doubly diffract or collinearly propagate laser radiation of the appropriate wavelength. The use of a dynamic phase retarder placed in between...
10.
Hrozhyk U, Serak S, Tabiryan N, Hoke L, Steeves D, Kimball B
Opt Express
. 2010 Jul;
18(8):8697-704.
PMID: 20588713
This study compares optical switching capabilities of liquid crystal (LC) materials based on different classes of azobenzene dyes. LCs based on molecules containing benzene rings with nearly symmetrical pi-pi conjugation...