Mesa Photonics Llc
CAGE Code: 4XHJ4
NCAGE Code: 4XHJ4
Status: Active
Type: Manufacturer
Dun & Bradstreet (DUNS): 607619223
Summary
Mesa Photonics Llc is an Active Manufacturer with the Cage Code 4XHJ4 and is tracked by Dun & Bradstreet under DUNS Number 607619223..
Address
1550 Pacheco St
Santa Fe NM 87505-3914
United States
Points of Contact
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Frequently Asked Questions (FAQ) for CAGE 4XHJ4
- What is CAGE Code 4XHJ4?
- 4XHJ4 is the unique identifier used by NATO Organizations to reference the physical entity known as Mesa Photonics Llc located at 1550 Pacheco St, Santa Fe NM 87505-3914, United States.
- Who is CAGE Code 4XHJ4?
- 4XHJ4 refers to Mesa Photonics Llc located at 1550 Pacheco St, Santa Fe NM 87505-3914, United States.
- Where is CAGE Code 4XHJ4 Located?
- CAGE Code 4XHJ4 is located in Santa Fe, NM, USA.
Contracting History for CAGE 4XHJ4 Most Recent 25 Records
- 68HERC23C0020
- Monitoring Network For Methane Emissions
- 21 Nov 2022
- Monitoring Network For Methane Emissions
- Cincinnati Acquisition Div (Cad)
- Environmental Protection Agency (Epa)
- $99,999.51
- Environmental Protection Agency (Epa)
- SP470121C0054
- 8508497818!Services - Basic Research
- 9 Sep 2021
- 8508497818!Services - Basic Research
- Dcso Philadelphia
- Department Of Defense (Dod)
- $1,600,000.00
- Department Of Defense (Dod)
- SP470121C0054
- Sp4701-21-C-0054-P00002 Is To Extend The Period Of Performance.
- 12 Jul 2023
- Sp4701-21-C-0054-P00002 Is To Extend The Period Of Performance.
- Dcso Philadelphia
- Department Of Defense (Dod)
- $1,600,000.00
- Department Of Defense (Dod)
- SP470121C0054
- Sp4701-21-C-0054-P00001 Modification To Correct Payment Office Listed On First Page Of Contract.
- 10 Sep 2021
- Sp4701-21-C-0054-P00001 Modification To Correct Payment Office Listed On First Page Of Contract.
- Dcso Philadelphia
- Department Of Defense (Dod)
- $1,600,000.00
- Department Of Defense (Dod)
- 68HERC20C0030
- Sbir Phase I Award Inclusion Of Nda Section 889 Clause
- 15 Oct 2020
- Sbir Phase I Award Inclusion Of Nda Section 889 Clause
- Cincinnati Acquisition Div (Cad)
- Environmental Protection Agency (Epa)
- $99,999.69
- Environmental Protection Agency (Epa)
- NNX15CA09C
- Igf::Ot::Igf Mesa Photonics Has Developed Laser-Based Gas Sensor Technology Compatible With Uav Deployment. Our Airborne Multi-Gas Sensor (Amugs) Technology Is Based Upon Two-Tone Frequency-Modulated Spectroscopy (Tt-Fms). Tt-Fms Retains The Advantages Of Near-Infrared Diode Lasers While Pushing Detection Sensitivity More Than Two Orders Of Magnitude Closer To The Theoretical Limit. Phase I Results Demonstrated That Lightweight, Low-Power Near-Infrared Systems Can Deliver Sensitivity Competitive With Mid-Infrared Gas Analyzers. This Factor Is Important For Uav Deployment Because Near-Infrared Systems That Use Fiber Optic Telecommunications Components Are Robust, Versatile, And Cost-Effective. Amugs Uses An Open Path Optical Cell That Is Lighter And More Robust Than Instruments Based On Cavity-Enhanced Spectroscopy Methods. In, Sensitivity Demonstrated In Phase I Was A Factor Of 5-10X Better Than Its Nearest Competing Techniques. Benchtop Tt-Fms Delivered Sensitivities At 10 Hz Of 5 Ppm For Co2 And 12 Ppb For Ch4. Precision Improved To 1.5 Ppm For Co2 And 3.3 Ppb For Ch4 With 1 Sec Of Signal Averaging. The Phase Ii Target Is To Design And Build A Flight-Ready Tt-Fms Prototype That Maintains Or Exceeds This Benchtop Detection Precision. The Amugs Prototype Will Meet 5 Kg And 50 W Targets And Will Be Flown On An All-Electric Model Aircraft At The University Of Texas At Dallas. This Airborne Testing Will Provide Critical Information That Will Help Further Development And Commercialization Of The Amugs Technology.
- 31 May 2018
- Igf::Ot::Igf Mesa Photonics Has Developed Laser-Based Gas Sensor Technology Compatible With Uav Deployment. Our Airborne Multi-Gas Sensor (Amugs) Technology Is Based Upon Two-Tone Frequency-Modulated Spectroscopy (Tt-Fms). Tt-Fms Retains The Advantages Of Near-Infrared Diode Lasers While Pushing Detection Sensitivity More Than Two Orders Of Magnitude Closer To The Theoretical Limit. Phase I Results Demonstrated That Lightweight, Low-Power Near-Infrared Systems Can Deliver Sensitivity Competitive With Mid-Infrared Gas Analyzers. This Factor Is Important For Uav Deployment Because Near-Infrared Systems That Use Fiber Optic Telecommunications Components Are Robust, Versatile, And Cost-Effective. Amugs Uses An Open Path Optical Cell That Is Lighter And More Robust Than Instruments Based On Cavity-Enhanced Spectroscopy Methods. In, Sensitivity Demonstrated In Phase I Was A Factor Of 5-10X Better Than Its Nearest Competing Techniques. Benchtop Tt-Fms Delivered Sensitivities At 10 Hz Of 5 Ppm For Co2 And 12 Ppb For Ch4. Precision Improved To 1.5 Ppm For Co2 And 3.3 Ppb For Ch4 With 1 Sec Of Signal Averaging. The Phase Ii Target Is To Design And Build A Flight-Ready Tt-Fms Prototype That Maintains Or Exceeds This Benchtop Detection Precision. The Amugs Prototype Will Meet 5 Kg And 50 W Targets And Will Be Flown On An All-Electric Model Aircraft At The University Of Texas At Dallas. This Airborne Testing Will Provide Critical Information That Will Help Further Development And Commercialization Of The Amugs Technology.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,468.00
- National Aeronautics And Space Administration (Nasa)
- NNX16CG09C
- Igf::Ot::Igf Atmospheric Clouds Have Strong Impact On The Global Radiative Budget. Cloud's Radiative Properties Are Strongly Affected By Droplet Size Distribution And Number Concentration. This Sbir Project Will Develop An Innovative, Compact And Inexpensive Droplet Measurement System (Dms), Which Will Provide In Situ Measurement Of Droplet Size Distribution Function And Droplet Number Concentration In Clouds. The Dms Will Be Designed To Meet The Demanding Requirements For Deployment On Small Unmanned Aerial Research Platforms Including Balloons, Blimps And Small Uavs. The Phase I Study Demonstrated The Feasibility Of The Proposed Method, Identified The Engineering Challenges To Be Addressed In Phase Ii And Outlined The Strategy For Further Development Of The Technology. In Phase Ii A Flight-Ready Compact, Lightweight And Low-Power Prototype System Will Be Designed, Constructed And Field-Tested. The Phase Ii Development Will Provide A Solid Basis For Further Commercialization Of The Proposed Technology.
- 4 Jun 2018
- Igf::Ot::Igf Atmospheric Clouds Have Strong Impact On The Global Radiative Budget. Cloud's Radiative Properties Are Strongly Affected By Droplet Size Distribution And Number Concentration. This Sbir Project Will Develop An Innovative, Compact And Inexpensive Droplet Measurement System (Dms), Which Will Provide In Situ Measurement Of Droplet Size Distribution Function And Droplet Number Concentration In Clouds. The Dms Will Be Designed To Meet The Demanding Requirements For Deployment On Small Unmanned Aerial Research Platforms Including Balloons, Blimps And Small Uavs. The Phase I Study Demonstrated The Feasibility Of The Proposed Method, Identified The Engineering Challenges To Be Addressed In Phase Ii And Outlined The Strategy For Further Development Of The Technology. In Phase Ii A Flight-Ready Compact, Lightweight And Low-Power Prototype System Will Be Designed, Constructed And Field-Tested. The Phase Ii Development Will Provide A Solid Basis For Further Commercialization Of The Proposed Technology.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,979.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC22PB088
- Eo14042 Sbir Phase I Advanced Multi-Gas Sensor
- 30 Jun 2022
- Eo14042 Sbir Phase I Advanced Multi-Gas Sensor
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $156,489.00
- National Aeronautics And Space Administration (Nasa)
- FA875123P0046
- Frequency-Resolved Optical Gating (Frog) System
- 25 Sep 2023
- Frequency-Resolved Optical Gating (Frog) System
- Fa8751 Afrl Riko
- Department Of Defense (Dod)
- $30,695.00
- Department Of Defense (Dod)
- 68HERC20C0030
- Sbir Phase I Award
- 11 Feb 2020
- Sbir Phase I Award
- Cincinnati Acquisition Div (Cad)
- Environmental Protection Agency (Epa)
- $99,999.69
- Environmental Protection Agency (Epa)
- SP470121P0021
- 8507759296!Sbir Phase I 20.2 6 Month Pop For Mesa Photonics L202-011-0284 Collider Day
- 24 Nov 2020
- 8507759296!Sbir Phase I 20.2 6 Month Pop For Mesa Photonics L202-011-0284 Collider Day
- Dcso Philadelphia
- Department Of Defense (Dod)
- $100,000.00
- Department Of Defense (Dod)
- N6833521C0379
- N21a-T015
- 6 May 2021
- N21a-T015
- Navair Warfare Ctr Aircraft Div
- Department Of Defense (Dod)
- $139,993.00
- Department Of Defense (Dod)
- 68HERC20C0030
- Sbir Phase I Award
- 23 Apr 2021
- Sbir Phase I Award
- Cincinnati Acquisition Div (Cad)
- Environmental Protection Agency (Epa)
- $99,999.69
- Environmental Protection Agency (Epa)
- 80NSSC22PB089
- E014042 Sbir Phase I Compact Autonomous Solar Radiometer For Atmospheric Trace Gas Sounding.
- 6 Jul 2022
- E014042 Sbir Phase I Compact Autonomous Solar Radiometer For Atmospheric Trace Gas Sounding.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $156,491.00
- National Aeronautics And Space Administration (Nasa)
- FA875118P0032
- Laser Components
- 17 Aug 2018
- Laser Components
- Fa8751 Afrl Riko
- Department Of Defense (Dod)
- $25,820.00
- Department Of Defense (Dod)
- NNX14CP06C
- Igf::Ot::Igf The Phase Ii Project Will Lead To The Design, Construction, And Field-Testing Of A Prototype Phocs Instrument For Atmospheric Column Retrievals Of Oxygen And Carbon Dioxide. The Carbon Dioxide Wavelength Range May Also Be Extended To Add Methane And Carbon Monoxide Measurements Depending On Laser Performance. The Prototype Will Include The Improvement To Heterodyne Spectroscopy Invented In Phase I. The Project Will Move Mesa Photonics' Technology Toward Commercializing Compact, Portable Instruments That Combine High Spectral Resolution With High Sensitivity And Rapid Data Acquisition.
- 4 Jun 2018
- Igf::Ot::Igf The Phase Ii Project Will Lead To The Design, Construction, And Field-Testing Of A Prototype Phocs Instrument For Atmospheric Column Retrievals Of Oxygen And Carbon Dioxide. The Carbon Dioxide Wavelength Range May Also Be Extended To Add Methane And Carbon Monoxide Measurements Depending On Laser Performance. The Prototype Will Include The Improvement To Heterodyne Spectroscopy Invented In Phase I. The Project Will Move Mesa Photonics' Technology Toward Commercializing Compact, Portable Instruments That Combine High Spectral Resolution With High Sensitivity And Rapid Data Acquisition.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $748,977.00
- National Aeronautics And Space Administration (Nasa)