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
Personal information
See more information about David Michael Dick at radaris.comName
Address
Phone
416 E Leslie Ave, Salt Lake City, UT 84115
Professional information
See more information about David Michael Dick at trustoria.com
David Dick - Salt Lake City, UT
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)
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.