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Form of workJob Description
Description
SAIC applies cutting edge science and technology, high performance computing resources, and advanced laboratory technology to the problem of developing and testing advanced laser and nonlinear optical sensor concepts and components for the United States Air Force. The successful applicant will play a key role in lab operations, including design, development, and construction of test and evaluation facilities for advanced active sensor concepts and components. Current research projects include development of multispectral lasers, wavelength-agile lasers, and quantum sources by employing radically new technology based on nonlinear optics in gas- or liquid-filled hollow-core photonic crystal fiber and solid core silica fiber. Applications include spectropolarimetric LiDAR sensors and quantum networks.
· The successful applicant will be responsible for coordinating with the concept team on understanding the operational principles and modes of the unit under test and applying that knowledge to the construction of appropriate test hardware. The ability to communicate with a wide variety of subject matter experts and determine real, actionable requirements and functional designs and optical hardware is critical.
· The successful applicant will support laboratory test, including setup, debugging, operation and documentation.
· The successful applicant will be involved in the development, set up and testing of optical and laser systems and components.
· The successful applicant will need to be able to work effectively both within a team and individually.
· The successful applicant must have the ability to anticipate testing requirements and technology to act proactively to position the lab for improvement and success.
Qualifications
· Degree in science, engineering, or physics with a focus on optical principles engineering: Bachelor’s, Master’s, and Ph.D. applicants are welcome.
· Minimum education and experience requirements:
o Bachelor’s degree plus 2 years of experience, or
o Master’s degree plus 1 year of experience
· Experimental research background in nonlinear optics or laser development is desired. The ideal candidate will possess experience with one of more of the following:
o quantum optics, (un)entangled photon source generation, single photon detection
o parametric (e.g., OPA and SPDC) or non-parametric (e.g., stimulated Raman scattering) frequency conversion techniques
o optical characterization or determination of nonlinear properties of materials
o experimentation with, or design of, hollow-core photonic crystal fiber
o optical fiber handling, aligning, and glass processing (e.g., splicing, cleaving)
o COMSOL Multiphysics software
· Experience with numerical modeling tools such as MATLAB or Mathematica is desired.
· Applicant must be qualified to obtain a DoD secret security clearance. Existing clearance desired.
SAIC accepts applications on an ongoing basis and there is no deadline.
Covid Policy: SAIC does not require COVID-19 vaccinations or boosters. Customer site vaccination requirements must be followed when work is performed at a customer site.
Overview
SAIC® is a premier Fortune 500® technology integrator focused on advancing the power of technology and innovation to serve and protect our world. Our robust portfolio of offerings across the defense, space, civilian and intelligence markets includes secure high-end solutions in mission IT, enterprise IT, engineering services and professional services. We integrate emerging technology, rapidly and securely, into mission critical operations that modernize and enable critical national imperatives.
We are approximately 24,000 strong; driven by mission, united by purpose, and inspired by opportunities. SAIC is an Equal Opportunity Employer, fostering a culture of diversity, equity and inclusion, which is core to our values and important to attract and retain exceptional talent. Headquartered in Reston, Virginia, SAIC has annual revenues of approximately $7.4 billion. For more information, visit saic.com. For ongoing news, please visit our newsroom.
