David Michael Dick
Electrician in Salt Lake City, UT
License number
Utah 10086701-5505
Issued Date
Sep 8, 2016
Expiration Date
Nov 30, 2018
Category
Electrician
Type
Apprentice Electrician
Address
Address
Salt Lake City, UT
Professional information
David Dick - Salt Lake City, UT
Work:
Utah Public Health Laboratory
Laboratory Tech III (Lead Tech) Teleperformance USA - Salt Lake City, UT
Technical Support Representative Fey Automotive - Salt Lake City, UT
Warehouse Manager/ Shipping and Receiving
Laboratory Tech III (Lead Tech) Teleperformance USA - Salt Lake City, UT
Technical Support Representative Fey Automotive - Salt Lake City, UT
Warehouse Manager/ Shipping and Receiving
Education:
IT Career Academy - Salt Lake City, UT
Certifications A+, Network+, CCNA, CCNP
Certifications A+, Network+, CCNA, CCNP
Skills:
Microsoft Access creating tables, queries, forms and reports, Microsoft Excel - creating macros, pivot tables, and forms, Microsoft Word - using mail merge and printing labels. Assembly and Maintenance of PCs. Routers, printer installation, forklift and narrow aisle forklift.
Blue Generation At The H-Beta Fraunhofer Wavelength Using Noncritically Phase-Matched Optical Parametric Generation In Lithium Borate (Lib.sub.3 O.sub.5)
US Patent:
5191587, Mar 2, 1993
Filed:
Dec 26, 1991
Appl. No.:
7/814027
Inventors:
Frank Hanson - San Diego CA
David Dick - Salt Lake City UT
David Dick - Salt Lake City UT
Assignee:
The United States of America as represented by the Secretary of the Navy - Washington DC
International Classification:
H01S 310
US Classification:
372 21
Abstract:
An optical blue parametric generation relies upon a nonlinear optical cryl of lithium borate (LiB. sub. 3 O. sub. 5) properly oriented to generate blue light when appropriately located in a resonant optical cavity and pumped with high intensity light at 355 nm. Beam walk-off and beam pump divergence are greatly reduced due to a specific orientation of non-critical phase-matching so that the 355 nm pump source provides for a sufficient phase-match for output generation near the H Beta Fraunhofer wavelength at 486 nm and also provides for a temperature tuning of the lithium borate crystal to permit exact coincidence to a particular output wavelength so that optical parametric generation from 470 to 487 nm may be assured by the appropriately tuned lithium borate crystal.