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Nicholas Antipa Phones & Addresses

  • San Diego, CA
  • Oakland, CA
  • Berkeley, CA
  • Boston, MA
  • Rochester, NY
  • Brookline, MA
  • Davis, CA
  • Livermore, CA
  • Winters, CA

Work

Company: Lawrence livermore national security Oct 2009 Position: Optics engineer

Education

School / High School: University of Rochester- Rochester, NY 2008 Specialities: MS in Optics

Skills

lens design (Zemax and Code V) • optical metrology including phase shifti... • quantitative image analysis • automated data acquisition • learning whatever I have to learn

Resumes

Resumes

Nicholas Antipa Photo 1

Nicholas Antipa Boston, MA

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Work:
Lawrence Livermore National Security

Oct 2009 to 2000
Optics Engineer

Education:
University of Rochester
Rochester, NY
2008 to 2009
MS in Optics

University of California, Davis
Davis, CA
2003 to 2008
BS in Optical Science and Engineering

Skills:
lens design (Zemax and Code V), optical metrology including phase shifting interferometry and confocal surface profilometry, quantitative image analysis, automated data acquisition, learning whatever I have to learn

Publications

Us Patents

Method And System For Inspecting Surfaces Of Miniature Components

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US Patent:
20130120559, May 16, 2013
Filed:
Oct 27, 2012
Appl. No.:
13/662434
Inventors:
LAWRENCE LIVERMORE NATIONAL SECURITY, LLC - Livermore CA, US
Richard C. Montesanti - Pleasanton CA, US
Nicholas A. Antipa - Oakland CA, US
Alan D. Conder - Livermore CA, US
Michael A. Johnson - Pleasanton CA, US
John S. Taylor - Livermore, DE
Assignee:
LAWRENCE LIVERMORE NATIONAL SECURITY, LLC - Livermore CA
International Classification:
H04N 7/18
US Classification:
348125
Abstract:
Systems and methods for inspecting capsules and capsule fill tube assemblies (CTFA) are provided. The 3-D Surface Mapping System (SMS) is used to generate 3-D surface information of each CFTA used in fusion ignition experiments. The CFTA includes a hollow capsule and an attached fill tube. This fragile CFTA's surface is inspected by using an optical microscope to gain volumetric information of particulates and surface defects at a sub-micrometer scale resolution. In order to completely inspect the entire surface of the CFTA the mechanical system requires multiple linear and rotational stages in addition to end effectors to safely hold the CFTA. By combining the optical microscope along with the mechanical system, a three-dimensional replication of the surface is generated providing information on surface feature defects and particulate sizes.
Nicholas A Antipa from San Diego, CA, age ~39 Get Report