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Ryan O Behunin, 452389 N Tillie Ln, Flagstaff, AZ 86001

Known as:
Ryan Orson Behunin Marilyn Behunin Roy Behunin Ryan N
Related to:
Jeffery D Gibson

Ryan Behunin Phones & Addresses

Flagstaff, AZ   

New Haven, CT   

Norwalk, CT   

Santa Fe, NM   

Silver Spring, MD   

Los Alamos, NM   

Hyattsville, MD   

Sandy, UT   

Salt Lake City, UT   

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Ryan Behunin resumes & CV records

Resumes

Ryan Behunin Photo 11

Associate Director

Location:
P/O Box 1077, American Fork, UT
Industry:
Printing
Work:
Adc Fine Art & Frame
Associate Director
Education:
Weber State University 1982 - 1984
University of Utah 1982 - 1984
Skills:
Dye Sublimation of Fine Art and Photography, Custom Framing, Two Way Radio Rentals
Ryan Behunin Photo 12

Postdoctoral Associate

Location:
New Haven, CT
Industry:
Higher Education
Work:
Yale University
Associate Research Scientist Yale University
Postdoctoral Associate Los Alamos National Laboratory 2010 - 2013
Postdoctoral Associate
Education:
University of Maryland 2005 - 2010
Doctorates, Doctor of Philosophy, Physics, Philosophy University of Utah 2000 - 2005
Bachelors, Bachelor of Science, Physics
Skills:
Latex, Mathematical Modeling, Mathematica, Matlab, Science, Physics, Numerical Analysis, Scientific Computing, Research, Data Analysis, Spectroscopy, Simulations, Experimentation, Nanotechnology, Statistics, Optics

Publications & IP owners

Us Patents

Secure Multi-State Quantum Key Distribution With Wavelength Division Multiplexing

US Patent:
2021015, May 20, 2021
Filed:
Nov 18, 2020
Appl. No.:
16/951760
Inventors:
- Flagstaff AZ, US
Ines MONTANO - Flagstaf AZ, US
Ryan BEHUNIN - Flagstaff AZ, US
Vince RODRIGUEZ - Flagstaff AZ, US
International Classification:
H04L 9/08
H04B 10/079
H04B 10/70
Abstract:
The performance of quantum key distribution by systems and methods that use wavelength division multiplexing and encode information using both wavelength and polarization of photons of two or more wavelengths. Multi-wavelength polarization state encoding schemes allow ternary-coded digits, quaternary-coded digits and higher-radix digits to be represented by single photons. Information expressed in a first radix can be encoded in a higher radix and combined with a string of key values to produce a datastream having all allowed digit values of that radix in a manner that allows eavesdropping to be detected without requiring the sender and receiver to exchange additional information after transmission of the information.

Acousto-Optic Coupling Techniques And Related Systems And Methods

US Patent:
2020003, Jan 30, 2020
Filed:
Feb 28, 2018
Appl. No.:
16/488223
Inventors:
- New Haven CT, US
Prashanta Kharel - New Haven CT, US
William Renninger - New Haven CT, US
Ryan Orson Behunin - Flagstaff AZ, US
Assignee:
Yale University - New Haven CT
International Classification:
B06B 1/04
H01S 3/08
Abstract:
Techniques are provided to optomechanically couple light to a crystal structure, thereby producing stable, coherent bulk acoustic modes within the structure. In some embodiments, a resonator may comprise a plano-convex crystal structure to which pump light may be applied. The pump light may transfer energy to acoustic phonon modes of the crystal structure so as to create acoustic phonon modes with a coherence length greater than a length of the crystal structure. High frequency and high quality factor resonators may thereby be produced and operated.

Brillouin Laser

US Patent:
2018033, Nov 15, 2018
Filed:
May 11, 2018
Appl. No.:
15/977500
Inventors:
- New Haven CT, US
Nils Thomas Otterstrom - New Haven CT, US
Eric Andrew Kittlaus - New Haven CT, US
Ryan Orson Behunin - Flagstaff AZ, US
Zheng Barton Wang - Austin TX, US
Assignee:
Yale University - New Haven CT
International Classification:
H01S 3/30
H01S 3/063
H01S 3/094
H01S 3/106
Abstract:
Techniques for producing a Brillouin laser are provided. According to some aspects, techniques are based on forward Brillouin scattering and a multimode acousto-optic waveguide in which light is scattered between optical modes of the waveguide via the Brillouin scattering. This process may transfer energy from a waveguide mode of pump light to a waveguide mode of Stokes light. This process may be referred to herein as Stimulated Inter-Modal Brillouin Scattering (SIMS). Since SIMS is based on forward Brillouin scattering, laser (Stokes) light may be output in a different direction than back toward the input pump light, and as such there is no need for a circulator or other non-reciprocal device to protect the pump light as in conventional devices.

Possible Relatives

Jason R Behunin  Jessica M Behunin  Kerry I Behunin  Robert C Behunin  Stephen J Behunin  Tonya M Behunin  Charles Behunin  Ryan A Johnson  Ryan Stamps  Ryan F Stander 

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