Metrolaser, Inc.

Company Information
Address 22941 Mill Creek Drive
Laguna Hills, CA, 92653-1215

http://www.metrolaserinc.com

Information

DUNS: 188465819

# of Employees: 12


Ownership Information

HUBZone Owned: N

Socially and Economically Disadvantaged: Y

Woman Owned: N



Award Charts




Award Listing

  1. TRUsted Structures Technology (TRUST)

    Amount: $149,854.34

    This is a proposal to develop a non-destructive method to assure trustworthiness of additive manufactured components to support the TRuST (TRusted Structures Technology) program. The method, ASSURES ( ...

    SBIRPhase I2017Department of Defense Defense Advanced Research Projects Agency
  2. Simultaneous Time-Resolved Gas and Particle Flow Measurements in a Multiphase Blast Using Particle Imaging Velocimetry and Novel Phase Separation Techniques

    Amount: $149,925.00

    An experimental method is proposed to enable time-resolved measurements of both gas and particle velocities in explosions containing particles for munitions research. The approach involves novel proce ...

    STTRPhase I2017Department of Defense Air Force
  3. Measurement of Neutral Xenon Using Two Photon Radar REMPI and Laser Induced Fluorescence

    Amount: $149,979.00

    ABSTRACT: Two separate diagnostic techniques are proposed for measuring concentrations of neutral xenon in Hall thruster research: radar REMPI and a variant of laser-induced fluorescence. Both methods ...

    SBIRPhase I2017Department of Defense Air Force
  4. Hypervelocity Projectile Position, Angle of Attack, and Velocity Detection System

    Amount: $402,942.00

    This proposal describes an improved Hypervelocity Projectile Scanner for tracking hypervelocity projectiles in aeroballistic test ranges. The scanner responds to a customer need for portable systems t ...

    SBIRPhase II2017Department of Defense Air Force
  5. Short Pulsed Laser Methods for Velocimetry and Thermometry in High Enthalpy Facilities

    Amount: $749,985.00

    A suite of pulsed laser diagnostics is proposed for studying aspects of planetary entry and Earth atmospheric reentry in arc jets. For example, dissociation of molecules impacts the flow-field physics ...

    SBIRPhase II2016National Aeronautics and Space Administration
  6. Spatially and Temporally Resolved Diagnostics of Dense Sprays Using Gated, Femtosecond, Digital Holography

    Amount: $124,936.00

    This is a proposal to develop a unique, gated, picosecond, digital holography system for characterizing dense particle fields in high pressure combustion environments; a critical requirement clearly d ...

    SBIRPhase I2016National Aeronautics and Space Administration
  7. Plume Velocimetry Diagnostic for Large Rocket Engines

    Amount: $124,952.00

    An instrument is proposed for non-intrusive measurements of velocity in the plume of a large rocket engine of the type used in the first or second stage of a launch vehicle. The method is laser-based ...

    SBIRPhase I2016National Aeronautics and Space Administration
  8. Laser Scattering Diagnostic for Shock Front Arrival and Electron Number Density

    Amount: $124,887.00

    Three diagnostic methods are proposed for measuring properties of interest in the post-shock regions of a hypersonic bow shock wave that is used for studying planetary entry and earth reentry flows. S ...

    SBIRPhase I2016National Aeronautics and Space Administration
  9. Optical System for Atmospheric Particle Measurement

    Amount: $124,975.00

    To measure the broad size range of 0.1 micron to 200 micron, we propose an optical instrument that combines two techniques: Forward scattering light intensity (FSLI) and digital holography (DH). FSLI ...

    SBIRPhase I2016National Aeronautics and Space Administration
  10. Three-Dimensional Density Imaging by Rayleigh Scattering

    Amount: $149,998.00

    A diagnostic is proposed for obtaining instantaneous three-dimensional volumetric distributions of density in a flow field at velocities ranging from subsonic to supersonic. Two variants of laser-base ...

    STTRPhase I2016Department of Defense Air Force
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