Bridger Photonics Inc
CAGE Code: 4SMW0
NCAGE Code: 4SMW0
Status: Active
Type: Commercial Supplier
Dun & Bradstreet (DUNS): 788293244
Summary
Bridger Photonics Inc is an Active Commercial Supplier with the Cage Code 4SMW0 and is tracked by Dun & Bradstreet under DUNS Number 788293244..
Address
2310 University Way
Bldg 4-4
Bozeman MT 59715-6504
United States
Points of Contact
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Frequently Asked Questions (FAQ) for CAGE 4SMW0
- What is CAGE Code 4SMW0?
- 4SMW0 is the unique identifier used by NATO Organizations to reference the physical entity known as Bridger Photonics Inc located at 2310 University Way, Bldg 4-4, Bozeman MT 59715-6504, United States.
- Who is CAGE Code 4SMW0?
- 4SMW0 refers to Bridger Photonics Inc located at 2310 University Way, Bldg 4-4, Bozeman MT 59715-6504, United States.
- Where is CAGE Code 4SMW0 Located?
- CAGE Code 4SMW0 is located in Bozeman, MT, USA.
Contracting History for CAGE 4SMW0 Most Recent 25 Records
- NNX16CL09C
- Igf::Ot::Igf Real-Time, High-Frequency Measurements Of Atmospheric Ozone Are Becoming Increasingly Important To Understand The Impact Of Ozone Towards Climate Change, To Monitor And Understand Depletion Of The Ozone Layer, To Further Understand Its Role In Atmospheric Chemistry, And To Assess Its Impact On Human Health And The Productivity Of Agricultural Crops. Expansions Of Tropospheric Ozone Measurement Efforts, Such As Nasa?S Tolnet Program, Are Critical To Improve Our Understanding These Effects. In Response To This Need, Bridger Photonics Inc Proposes Developing The Most Efficient, Compact, Rugged, Low-Power Consumption And Cost-Effective Uv Ozone Differential Absorption Lidar (Dial) Transmitter Available. The Proposed Transmitter Will Enable Widespread Deployment Of Ozone Dial Systems Capable Of Continuous Range-Resolved Atmospheric Ozone Measurements From Ground-Based And Airborne Platforms To Advance Nasa?S Earth Science Mission. To Achieve This Design Goal, Bridger Will Apply Innovations Proven Out During Its Phase I Effort And Developed Previously For Its Mir Series Laser Product. The Overall Project Goal Is To Design, Construct, And Test An Autonomous, Production-Grade Prototype, Two-Wavelength Ozone Lidar Transmitter. The Proposed Transmitter Will Enable State-Of-The-Art Continuous Ozone Lidar Measurements Without The Need For A Skilled Operator. It Will Also Provide A Long Maintenance-Free Interval (>2 Years), And Will Cost Under $200K Per Transmitter. Successful Completion Of This Phase Ii Program Will Allow Bridger To Demonstrate A Simultaneous Dial, Brassboard Transmitter With Pulse Energies>200 ?J In Both Dial Wavelengths Capable Of Autonomous Operation, Without Degradation, For 3 Months.
- 4 Dec 2018
- Igf::Ot::Igf Real-Time, High-Frequency Measurements Of Atmospheric Ozone Are Becoming Increasingly Important To Understand The Impact Of Ozone Towards Climate Change, To Monitor And Understand Depletion Of The Ozone Layer, To Further Understand Its Role In Atmospheric Chemistry, And To Assess Its Impact On Human Health And The Productivity Of Agricultural Crops. Expansions Of Tropospheric Ozone Measurement Efforts, Such As Nasa?S Tolnet Program, Are Critical To Improve Our Understanding These Effects. In Response To This Need, Bridger Photonics Inc Proposes Developing The Most Efficient, Compact, Rugged, Low-Power Consumption And Cost-Effective Uv Ozone Differential Absorption Lidar (Dial) Transmitter Available. The Proposed Transmitter Will Enable Widespread Deployment Of Ozone Dial Systems Capable Of Continuous Range-Resolved Atmospheric Ozone Measurements From Ground-Based And Airborne Platforms To Advance Nasa?S Earth Science Mission. To Achieve This Design Goal, Bridger Will Apply Innovations Proven Out During Its Phase I Effort And Developed Previously For Its Mir Series Laser Product. The Overall Project Goal Is To Design, Construct, And Test An Autonomous, Production-Grade Prototype, Two-Wavelength Ozone Lidar Transmitter. The Proposed Transmitter Will Enable State-Of-The-Art Continuous Ozone Lidar Measurements Without The Need For A Skilled Operator. It Will Also Provide A Long Maintenance-Free Interval (>2 Years), And Will Cost Under $200K Per Transmitter. Successful Completion Of This Phase Ii Program Will Allow Bridger To Demonstrate A Simultaneous Dial, Brassboard Transmitter With Pulse Energies>200 ?J In Both Dial Wavelengths Capable Of Autonomous Operation, Without Degradation, For 3 Months.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,960.00
- National Aeronautics And Space Administration (Nasa)
- 0002
- High-Resolution Ladar For Damage Assessment Of Isr Threats
- 13 Nov 2017
- High-Resolution Ladar For Damage Assessment Of Isr Threats
- Fa9451 Det 8 Afrl Pkd
- Department Of Defense (Dod)
- $551,289.00
- Department Of Defense (Dod)
- IND17PC00152
- Real-Time Metrology And Feedback Control For Additive Manufacturing.
- 14 May 2020
- Real-Time Metrology And Feedback Control For Additive Manufacturing.
- Ibc Acq Svcs Directorate (00004)
- Department Of The Interior (Doi)
- $99,961.09
- Department Of The Interior (Doi)
- DOCSB134118SE0063
- Slm System Upgrade
- 26 Mar 2018
- Slm System Upgrade
- Dept Of Commerce Nist
- Department Of Commerce (Doc)
- $25,000.00
- Department Of Commerce (Doc)
- NNX17CG16C
- Igf::Ot::Igf To Enable Widespread And Rapid Airborne Bathymetric Lidar To Adequate Depths In Many Ocean Regions A Low-Cost, Rugged, And High Energy Pulsed Laser Source Must Be Developed In The Ocean Water Transmittance Spectrum Of 450 - 490 Nm. The Ideal Laser Source Will Be High Performance For Lidar (High Pulse Energy, High Rep Rate, Short Pulse Duration) With Specific Targeted Emission Spectrum To Meet Ocean Water Transmittance And Filtering Requirements. It Will Also Feature Low Swap And A Rugged Form Factor With High Reliability For Continual Use On Mobile Platforms. No Existing Laser Source Can Meet These Demanding Requirements. To Address This Challenge And Meet Nasa's Lidar Source Needs, Bridger Photonics, Inc. (Bridger) Proposes Creating A High Power Q-Switched, Off-Line Nd:Yag Source At 946 Nm, Which, When Frequency Doubled To 473 Nm, Will Provide High Transmittance Through Ocean Waters. Bridger's Design Will Leverage Three Key Innovations Proven Out In Its Phase I Effort: Efficient, End-Pumped, Low-Quantum-Defect Architecture Gain Crystal Design For Optimal Heat Removal And Robust Monolithic, Alignment-Free Fabrication. The Proposed Design Would Allow For Widespread Deployment Of Mobile Ocean-Penetrating Lidar Transmitters. Successful Completion Of This Phase Ii Effort Will Allow Bridger To Demonstrate≫10 W Of Average Blue Power In A Compact, Turn-Key Package. Bridger Has Modeled And Constructed Similar Lasers Through Sbir Efforts Previously And Will Apply The Innovations Developed There Towards This New System For Nasa.
- 31 May 2018
- Igf::Ot::Igf To Enable Widespread And Rapid Airborne Bathymetric Lidar To Adequate Depths In Many Ocean Regions A Low-Cost, Rugged, And High Energy Pulsed Laser Source Must Be Developed In The Ocean Water Transmittance Spectrum Of 450 - 490 Nm. The Ideal Laser Source Will Be High Performance For Lidar (High Pulse Energy, High Rep Rate, Short Pulse Duration) With Specific Targeted Emission Spectrum To Meet Ocean Water Transmittance And Filtering Requirements. It Will Also Feature Low Swap And A Rugged Form Factor With High Reliability For Continual Use On Mobile Platforms. No Existing Laser Source Can Meet These Demanding Requirements. To Address This Challenge And Meet Nasa's Lidar Source Needs, Bridger Photonics, Inc. (Bridger) Proposes Creating A High Power Q-Switched, Off-Line Nd:Yag Source At 946 Nm, Which, When Frequency Doubled To 473 Nm, Will Provide High Transmittance Through Ocean Waters. Bridger's Design Will Leverage Three Key Innovations Proven Out In Its Phase I Effort: Efficient, End-Pumped, Low-Quantum-Defect Architecture Gain Crystal Design For Optimal Heat Removal And Robust Monolithic, Alignment-Free Fabrication. The Proposed Design Would Allow For Widespread Deployment Of Mobile Ocean-Penetrating Lidar Transmitters. Successful Completion Of This Phase Ii Effort Will Allow Bridger To Demonstrate≫10 W Of Average Blue Power In A Compact, Turn-Key Package. Bridger Has Modeled And Constructed Similar Lasers Through Sbir Efforts Previously And Will Apply The Innovations Developed There Towards This New System For Nasa.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,848.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC20C0404
- Autonomous Dial-Based Tropospheric Ozone Profiler
- 26 Aug 2020
- Autonomous Dial-Based Tropospheric Ozone Profiler
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $124,609.00
- National Aeronautics And Space Administration (Nasa)
- NNX16CL09C
- Igf::Ot::Igf Real-Time, High-Frequency Measurements Of Atmospheric Ozone Are Becoming Increasingly Important To Understand The Impact Of Ozone Towards Climate Change, To Monitor And Understand Depletion Of The Ozone Layer, To Further Understand Its Role In Atmospheric Chemistry, And To Assess Its Impact On Human Health And The Productivity Of Agricultural Crops. Expansions Of Tropospheric Ozone Measurement Efforts, Such As Nasa?S Tolnet Program, Are Critical To Improve Our Understanding These Effects. In Response To This Need, Bridger Photonics Inc Proposes Developing The Most Efficient, Compact, Rugged, Low-Power Consumption And Cost-Effective Uv Ozone Differential Absorption Lidar (Dial) Transmitter Available. The Proposed Transmitter Will Enable Widespread Deployment Of Ozone Dial Systems Capable Of Continuous Range-Resolved Atmospheric Ozone Measurements From Ground-Based And Airborne Platforms To Advance Nasa?S Earth Science Mission. To Achieve This Design Goal, Bridger Will Apply Innovations Proven Out During Its Phase I Effort And Developed Previously For Its Mir Series Laser Product. The Overall Project Goal Is To Design, Construct, And Test An Autonomous, Production-Grade Prototype, Two-Wavelength Ozone Lidar Transmitter. The Proposed Transmitter Will Enable State-Of-The-Art Continuous Ozone Lidar Measurements Without The Need For A Skilled Operator. It Will Also Provide A Long Maintenance-Free Interval (>2 Years), And Will Cost Under $200K Per Transmitter. Successful Completion Of This Phase Ii Program Will Allow Bridger To Demonstrate A Simultaneous Dial, Brassboard Transmitter With Pulse Energies>200 ?J In Both Dial Wavelengths Capable Of Autonomous Operation, Without Degradation, For 3 Months.
- 24 Jan 2019
- Igf::Ot::Igf Real-Time, High-Frequency Measurements Of Atmospheric Ozone Are Becoming Increasingly Important To Understand The Impact Of Ozone Towards Climate Change, To Monitor And Understand Depletion Of The Ozone Layer, To Further Understand Its Role In Atmospheric Chemistry, And To Assess Its Impact On Human Health And The Productivity Of Agricultural Crops. Expansions Of Tropospheric Ozone Measurement Efforts, Such As Nasa?S Tolnet Program, Are Critical To Improve Our Understanding These Effects. In Response To This Need, Bridger Photonics Inc Proposes Developing The Most Efficient, Compact, Rugged, Low-Power Consumption And Cost-Effective Uv Ozone Differential Absorption Lidar (Dial) Transmitter Available. The Proposed Transmitter Will Enable Widespread Deployment Of Ozone Dial Systems Capable Of Continuous Range-Resolved Atmospheric Ozone Measurements From Ground-Based And Airborne Platforms To Advance Nasa?S Earth Science Mission. To Achieve This Design Goal, Bridger Will Apply Innovations Proven Out During Its Phase I Effort And Developed Previously For Its Mir Series Laser Product. The Overall Project Goal Is To Design, Construct, And Test An Autonomous, Production-Grade Prototype, Two-Wavelength Ozone Lidar Transmitter. The Proposed Transmitter Will Enable State-Of-The-Art Continuous Ozone Lidar Measurements Without The Need For A Skilled Operator. It Will Also Provide A Long Maintenance-Free Interval (>2 Years), And Will Cost Under $200K Per Transmitter. Successful Completion Of This Phase Ii Program Will Allow Bridger To Demonstrate A Simultaneous Dial, Brassboard Transmitter With Pulse Energies>200 ?J In Both Dial Wavelengths Capable Of Autonomous Operation, Without Degradation, For 3 Months.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $1,049,881.00
- National Aeronautics And Space Administration (Nasa)
- NNX16CL09C
- Igf::Ot::Igf Real-Time, High-Frequency Measurements Of Atmospheric Ozone Are Becoming Increasingly Important To Understand The Impact Of Ozone Towards Climate Change, To Monitor And Understand Depletion Of The Ozone Layer, To Further Understand Its Role In Atmospheric Chemistry, And To Assess Its Impact On Human Health And The Productivity Of Agricultural Crops. Expansions Of Tropospheric Ozone Measurement Efforts, Such As Nasa?S Tolnet Program, Are Critical To Improve Our Understanding These Effects. In Response To This Need, Bridger Photonics Inc Proposes Developing The Most Efficient, Compact, Rugged, Low-Power Consumption And Cost-Effective Uv Ozone Differential Absorption Lidar (Dial) Transmitter Available. The Proposed Transmitter Will Enable Widespread Deployment Of Ozone Dial Systems Capable Of Continuous Range-Resolved Atmospheric Ozone Measurements From Ground-Based And Airborne Platforms To Advance Nasa?S Earth Science Mission. To Achieve This Design Goal, Bridger Will Apply Innovations Proven Out During Its Phase I Effort And Developed Previously For Its Mir Series Laser Product. The Overall Project Goal Is To Design, Construct, And Test An Autonomous, Production-Grade Prototype, Two-Wavelength Ozone Lidar Transmitter. The Proposed Transmitter Will Enable State-Of-The-Art Continuous Ozone Lidar Measurements Without The Need For A Skilled Operator. It Will Also Provide A Long Maintenance-Free Interval (>2 Years), And Will Cost Under $200K Per Transmitter. Successful Completion Of This Phase Ii Program Will Allow Bridger To Demonstrate A Simultaneous Dial, Brassboard Transmitter With Pulse Energies>200 ?J In Both Dial Wavelengths Capable Of Autonomous Operation, Without Degradation, For 3 Months.
- 24 Jan 2019
- Igf::Ot::Igf Real-Time, High-Frequency Measurements Of Atmospheric Ozone Are Becoming Increasingly Important To Understand The Impact Of Ozone Towards Climate Change, To Monitor And Understand Depletion Of The Ozone Layer, To Further Understand Its Role In Atmospheric Chemistry, And To Assess Its Impact On Human Health And The Productivity Of Agricultural Crops. Expansions Of Tropospheric Ozone Measurement Efforts, Such As Nasa?S Tolnet Program, Are Critical To Improve Our Understanding These Effects. In Response To This Need, Bridger Photonics Inc Proposes Developing The Most Efficient, Compact, Rugged, Low-Power Consumption And Cost-Effective Uv Ozone Differential Absorption Lidar (Dial) Transmitter Available. The Proposed Transmitter Will Enable Widespread Deployment Of Ozone Dial Systems Capable Of Continuous Range-Resolved Atmospheric Ozone Measurements From Ground-Based And Airborne Platforms To Advance Nasa?S Earth Science Mission. To Achieve This Design Goal, Bridger Will Apply Innovations Proven Out During Its Phase I Effort And Developed Previously For Its Mir Series Laser Product. The Overall Project Goal Is To Design, Construct, And Test An Autonomous, Production-Grade Prototype, Two-Wavelength Ozone Lidar Transmitter. The Proposed Transmitter Will Enable State-Of-The-Art Continuous Ozone Lidar Measurements Without The Need For A Skilled Operator. It Will Also Provide A Long Maintenance-Free Interval (>2 Years), And Will Cost Under $200K Per Transmitter. Successful Completion Of This Phase Ii Program Will Allow Bridger To Demonstrate A Simultaneous Dial, Brassboard Transmitter With Pulse Energies>200 ?J In Both Dial Wavelengths Capable Of Autonomous Operation, Without Degradation, For 3 Months.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $1,049,881.00
- National Aeronautics And Space Administration (Nasa)
- N6893617C0005
- Exercise Of Option Clin 0003 And 0004
- 4 Jan 2019
- Exercise Of Option Clin 0003 And 0004
- Naval Air Warfare Center
- Department Of Defense (Dod)
- $749,994.00
- Department Of Defense (Dod)
- IND17PC00152
- Igf::Ot::Igf Small Business Innovation Research Program 16.3 Phase I Topic Sb163-004 Real-Time Metrology And Feedback Control For Additive Manufacturing. Proposal Title: Real-Time Metrology And Feedback Control For Additive Manufacturing
- 26 Apr 2017
- Igf::Ot::Igf Small Business Innovation Research Program 16.3 Phase I Topic Sb163-004 Real-Time Metrology And Feedback Control For Additive Manufacturing. Proposal Title: Real-Time Metrology And Feedback Control For Additive Manufacturing
- Ibc Acq Services Division (00063)
- Department Of The Interior (Doi)
- $99,961.09
- Department Of The Interior (Doi)
- NNX16CL09C
- Igf::Ot::Igf Real-Time, High-Frequency Measurements Of Atmospheric Ozone Are Becoming Increasingly Important To Understand The Impact Of Ozone Towards Climate Change, To Monitor And Understand Depletion Of The Ozone Layer, To Further Understand Its Role In Atmospheric Chemistry, And To Assess Its Impact On Human Health And The Productivity Of Agricultural Crops. Expansions Of Tropospheric Ozone Measurement Efforts, Such As Nasa?S Tolnet Program, Are Critical To Improve Our Understanding These Effects. In Response To This Need, Bridger Photonics Inc Proposes Developing The Most Efficient, Compact, Rugged, Low-Power Consumption And Cost-Effective Uv Ozone Differential Absorption Lidar (Dial) Transmitter Available. The Proposed Transmitter Will Enable Widespread Deployment Of Ozone Dial Systems Capable Of Continuous Range-Resolved Atmospheric Ozone Measurements From Ground-Based And Airborne Platforms To Advance Nasa?S Earth Science Mission. To Achieve This Design Goal, Bridger Will Apply Innovations Proven Out During Its Phase I Effort And Developed Previously For Its Mir Series Laser Product. The Overall Project Goal Is To Design, Construct, And Test An Autonomous, Production-Grade Prototype, Two-Wavelength Ozone Lidar Transmitter. The Proposed Transmitter Will Enable State-Of-The-Art Continuous Ozone Lidar Measurements Without The Need For A Skilled Operator. It Will Also Provide A Long Maintenance-Free Interval (>2 Years), And Will Cost Under $200K Per Transmitter. Successful Completion Of This Phase Ii Program Will Allow Bridger To Demonstrate A Simultaneous Dial, Brassboard Transmitter With Pulse Energies>200 ?J In Both Dial Wavelengths Capable Of Autonomous Operation, Without Degradation, For 3 Months.
- 5 Nov 2018
- Igf::Ot::Igf Real-Time, High-Frequency Measurements Of Atmospheric Ozone Are Becoming Increasingly Important To Understand The Impact Of Ozone Towards Climate Change, To Monitor And Understand Depletion Of The Ozone Layer, To Further Understand Its Role In Atmospheric Chemistry, And To Assess Its Impact On Human Health And The Productivity Of Agricultural Crops. Expansions Of Tropospheric Ozone Measurement Efforts, Such As Nasa?S Tolnet Program, Are Critical To Improve Our Understanding These Effects. In Response To This Need, Bridger Photonics Inc Proposes Developing The Most Efficient, Compact, Rugged, Low-Power Consumption And Cost-Effective Uv Ozone Differential Absorption Lidar (Dial) Transmitter Available. The Proposed Transmitter Will Enable Widespread Deployment Of Ozone Dial Systems Capable Of Continuous Range-Resolved Atmospheric Ozone Measurements From Ground-Based And Airborne Platforms To Advance Nasa?S Earth Science Mission. To Achieve This Design Goal, Bridger Will Apply Innovations Proven Out During Its Phase I Effort And Developed Previously For Its Mir Series Laser Product. The Overall Project Goal Is To Design, Construct, And Test An Autonomous, Production-Grade Prototype, Two-Wavelength Ozone Lidar Transmitter. The Proposed Transmitter Will Enable State-Of-The-Art Continuous Ozone Lidar Measurements Without The Need For A Skilled Operator. It Will Also Provide A Long Maintenance-Free Interval (>2 Years), And Will Cost Under $200K Per Transmitter. Successful Completion Of This Phase Ii Program Will Allow Bridger To Demonstrate A Simultaneous Dial, Brassboard Transmitter With Pulse Energies>200 ?J In Both Dial Wavelengths Capable Of Autonomous Operation, Without Degradation, For 3 Months.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,960.00
- National Aeronautics And Space Administration (Nasa)
- 0002
- Igf::Ot::Igf High-Resolution Ladar For Damage Assessment Of Isr Threats
- 19 Jun 2017
- Igf::Ot::Igf High-Resolution Ladar For Damage Assessment Of Isr Threats
- Fa9451 Det 8 Afrl Pkd
- Department Of Defense (Dod)
- $551,289.00
- Department Of Defense (Dod)
- N6893617C0027
- Exercise Of Option Clin 0003 And 0004
- 4 Jan 2019
- Exercise Of Option Clin 0003 And 0004
- Naval Air Warfare Center
- Department Of Defense (Dod)
- $749,988.00
- Department Of Defense (Dod)
- 68HE0D18C0019
- Sbir Phase I - Bridger Photonics Inc. Drone-Based Gas Mapping Lidar For Leak Mitigation
- 23 Sep 2018
- Sbir Phase I - Bridger Photonics Inc. Drone-Based Gas Mapping Lidar For Leak Mitigation
- Rtp Proc Ops Division (Rtppod)
- Environmental Protection Agency (Epa)
- $99,999.00
- Environmental Protection Agency (Epa)
- NNX16CL09C
- Igf::Ot::Igf Real-Time, High-Frequency Measurements Of Atmospheric Ozone Are Becoming Increasingly Important To Understand The Impact Of Ozone Towards Climate Change, To Monitor And Understand Depletion Of The Ozone Layer, To Further Understand Its Role In Atmospheric Chemistry, And To Assess Its Impact On Human Health And The Productivity Of Agricultural Crops. Expansions Of Tropospheric Ozone Measurement Efforts, Such As Nasa?S Tolnet Program, Are Critical To Improve Our Understanding These Effects. In Response To This Need, Bridger Photonics Inc Proposes Developing The Most Efficient, Compact, Rugged, Low-Power Consumption And Cost-Effective Uv Ozone Differential Absorption Lidar (Dial) Transmitter Available. The Proposed Transmitter Will Enable Widespread Deployment Of Ozone Dial Systems Capable Of Continuous Range-Resolved Atmospheric Ozone Measurements From Ground-Based And Airborne Platforms To Advance Nasa?S Earth Science Mission. To Achieve This Design Goal, Bridger Will Apply Innovations Proven Out During Its Phase I Effort And Developed Previously For Its Mir Series Laser Product. The Overall Project Goal Is To Design, Construct, And Test An Autonomous, Production-Grade Prototype, Two-Wavelength Ozone Lidar Transmitter. The Proposed Transmitter Will Enable State-Of-The-Art Continuous Ozone Lidar Measurements Without The Need For A Skilled Operator. It Will Also Provide A Long Maintenance-Free Interval (>2 Years), And Will Cost Under $200K Per Transmitter. Successful Completion Of This Phase Ii Program Will Allow Bridger To Demonstrate A Simultaneous Dial, Brassboard Transmitter With Pulse Energies>200 ?J In Both Dial Wavelengths Capable Of Autonomous Operation, Without Degradation, For 3 Months.
- 4 Jun 2018
- Igf::Ot::Igf Real-Time, High-Frequency Measurements Of Atmospheric Ozone Are Becoming Increasingly Important To Understand The Impact Of Ozone Towards Climate Change, To Monitor And Understand Depletion Of The Ozone Layer, To Further Understand Its Role In Atmospheric Chemistry, And To Assess Its Impact On Human Health And The Productivity Of Agricultural Crops. Expansions Of Tropospheric Ozone Measurement Efforts, Such As Nasa?S Tolnet Program, Are Critical To Improve Our Understanding These Effects. In Response To This Need, Bridger Photonics Inc Proposes Developing The Most Efficient, Compact, Rugged, Low-Power Consumption And Cost-Effective Uv Ozone Differential Absorption Lidar (Dial) Transmitter Available. The Proposed Transmitter Will Enable Widespread Deployment Of Ozone Dial Systems Capable Of Continuous Range-Resolved Atmospheric Ozone Measurements From Ground-Based And Airborne Platforms To Advance Nasa?S Earth Science Mission. To Achieve This Design Goal, Bridger Will Apply Innovations Proven Out During Its Phase I Effort And Developed Previously For Its Mir Series Laser Product. The Overall Project Goal Is To Design, Construct, And Test An Autonomous, Production-Grade Prototype, Two-Wavelength Ozone Lidar Transmitter. The Proposed Transmitter Will Enable State-Of-The-Art Continuous Ozone Lidar Measurements Without The Need For A Skilled Operator. It Will Also Provide A Long Maintenance-Free Interval (>2 Years), And Will Cost Under $200K Per Transmitter. Successful Completion Of This Phase Ii Program Will Allow Bridger To Demonstrate A Simultaneous Dial, Brassboard Transmitter With Pulse Energies>200 ?J In Both Dial Wavelengths Capable Of Autonomous Operation, Without Degradation, For 3 Months.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,960.00
- National Aeronautics And Space Administration (Nasa)
- NNX17CG16C
- Igf::Ot::Igf To Enable Widespread And Rapid Airborne Bathymetric Lidar To Adequate Depths In Many Ocean Regions A Low-Cost, Rugged, And High Energy Pulsed Laser Source Must Be Developed In The Ocean Water Transmittance Spectrum Of 450 - 490 Nm. The Ideal Laser Source Will Be High Performance For Lidar (High Pulse Energy, High Rep Rate, Short Pulse Duration) With Specific Targeted Emission Spectrum To Meet Ocean Water Transmittance And Filtering Requirements. It Will Also Feature Low Swap And A Rugged Form Factor With High Reliability For Continual Use On Mobile Platforms. No Existing Laser Source Can Meet These Demanding Requirements. To Address This Challenge And Meet Nasa's Lidar Source Needs, Bridger Photonics, Inc. (Bridger) Proposes Creating A High Power Q-Switched, Off-Line Nd:Yag Source At 946 Nm, Which, When Frequency Doubled To 473 Nm, Will Provide High Transmittance Through Ocean Waters. Bridger's Design Will Leverage Three Key Innovations Proven Out In Its Phase I Effort: Efficient, End-Pumped, Low-Quantum-Defect Architecture Gain Crystal Design For Optimal Heat Removal And Robust Monolithic, Alignment-Free Fabrication. The Proposed Design Would Allow For Widespread Deployment Of Mobile Ocean-Penetrating Lidar Transmitters. Successful Completion Of This Phase Ii Effort Will Allow Bridger To Demonstrate≫10 W Of Average Blue Power In A Compact, Turn-Key Package. Bridger Has Modeled And Constructed Similar Lasers Through Sbir Efforts Previously And Will Apply The Innovations Developed There Towards This New System For Nasa.
- 19 Apr 2019
- Igf::Ot::Igf To Enable Widespread And Rapid Airborne Bathymetric Lidar To Adequate Depths In Many Ocean Regions A Low-Cost, Rugged, And High Energy Pulsed Laser Source Must Be Developed In The Ocean Water Transmittance Spectrum Of 450 - 490 Nm. The Ideal Laser Source Will Be High Performance For Lidar (High Pulse Energy, High Rep Rate, Short Pulse Duration) With Specific Targeted Emission Spectrum To Meet Ocean Water Transmittance And Filtering Requirements. It Will Also Feature Low Swap And A Rugged Form Factor With High Reliability For Continual Use On Mobile Platforms. No Existing Laser Source Can Meet These Demanding Requirements. To Address This Challenge And Meet Nasa's Lidar Source Needs, Bridger Photonics, Inc. (Bridger) Proposes Creating A High Power Q-Switched, Off-Line Nd:Yag Source At 946 Nm, Which, When Frequency Doubled To 473 Nm, Will Provide High Transmittance Through Ocean Waters. Bridger's Design Will Leverage Three Key Innovations Proven Out In Its Phase I Effort: Efficient, End-Pumped, Low-Quantum-Defect Architecture Gain Crystal Design For Optimal Heat Removal And Robust Monolithic, Alignment-Free Fabrication. The Proposed Design Would Allow For Widespread Deployment Of Mobile Ocean-Penetrating Lidar Transmitters. Successful Completion Of This Phase Ii Effort Will Allow Bridger To Demonstrate≫10 W Of Average Blue Power In A Compact, Turn-Key Package. Bridger Has Modeled And Constructed Similar Lasers Through Sbir Efforts Previously And Will Apply The Innovations Developed There Towards This New System For Nasa.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,848.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC19C0022
- This Contract Work Will Begin With Some Market Research, Including A Preliminary Design Review With Its Nasa Advisors, To Help Guide The Development Of A Production Transmitter Tailored To Fit Into The Ozone Lidar Niche. The Mechanical And Electrical Designs Will Be Revamped Based On These Findings And Be Used To Develop Two New Upgraded Transmitters (One At Each Ozone Dial Wavelength). Bridger Is Budgeting Fifteen Months For This Effort, Though Nearly All Work Will Be Performed In The First Twelve Months. At The End Of The First Year Bridger Will Deliver The Transmitters To Nasa. The Final Three Months Of The Project Will Be Devoted To In-House Testing At Nasa Langley With Technical Support From Bridger. The Contract Will Remain Open During This Time So That Bridger Can Provide Remote Support And Allow For A Final Visit To Evaluate And Optimize The Laser System After Nasa Has Conducted Its Initial Performance Evaluation. The Workplan Is Divided Between The Portion Funded By Its Nasa Investors (The Earth Science Technology Office And The Research And Analysis Program Within The Earth Science Division) And The Matching Phase Ii-X Sbir Program. Tasks For The Former Include A Preliminary Design Review, The Purchase Of All Materials For The Two Transmitters, And The Two Trips To Nasa Langley For Transmitter Delivery And Final Debriefing Tasks 1.1, 1.2, 1.6, And 1.7 As Outlined Below. The Labor Involved In The Refinement Of The Transmitter Models, The Assembly And Testing Of The Transmitters, And The Commercialization Work Tasks 1.3-1.5 And 2.1-2.2 Will All Be Funded By Sbir Matching Funds. This Includes Several Trips To Perform Market Research Interview With Potential Adopters Of The Completed System.
- 26 Feb 2019
- This Contract Work Will Begin With Some Market Research, Including A Preliminary Design Review With Its Nasa Advisors, To Help Guide The Development Of A Production Transmitter Tailored To Fit Into The Ozone Lidar Niche. The Mechanical And Electrical Designs Will Be Revamped Based On These Findings And Be Used To Develop Two New Upgraded Transmitters (One At Each Ozone Dial Wavelength). Bridger Is Budgeting Fifteen Months For This Effort, Though Nearly All Work Will Be Performed In The First Twelve Months. At The End Of The First Year Bridger Will Deliver The Transmitters To Nasa. The Final Three Months Of The Project Will Be Devoted To In-House Testing At Nasa Langley With Technical Support From Bridger. The Contract Will Remain Open During This Time So That Bridger Can Provide Remote Support And Allow For A Final Visit To Evaluate And Optimize The Laser System After Nasa Has Conducted Its Initial Performance Evaluation. The Workplan Is Divided Between The Portion Funded By Its Nasa Investors (The Earth Science Technology Office And The Research And Analysis Program Within The Earth Science Division) And The Matching Phase Ii-X Sbir Program. Tasks For The Former Include A Preliminary Design Review, The Purchase Of All Materials For The Two Transmitters, And The Two Trips To Nasa Langley For Transmitter Delivery And Final Debriefing Tasks 1.1, 1.2, 1.6, And 1.7 As Outlined Below. The Labor Involved In The Refinement Of The Transmitter Models, The Assembly And Testing Of The Transmitters, And The Commercialization Work Tasks 1.3-1.5 And 2.1-2.2 Will All Be Funded By Sbir Matching Funds. This Includes Several Trips To Perform Market Research Interview With Potential Adopters Of The Completed System.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $149,963.00
- National Aeronautics And Space Administration (Nasa)
- NNX16CL09C
- Real-Time, High-Frequency Measurements Of Atmospheric Ozone Are Becoming Increasingly Important To Understand The Impact Of Ozone Towards Climate Change, To Monitor And Understand Depletion Of The Ozone Layer, To Further Understand Its Role In Atmospheric Chemistry, And To Assess Its Impact On Human Health And The Productivity Of Agricultural Crops.
- 18 Aug 2020
- Real-Time, High-Frequency Measurements Of Atmospheric Ozone Are Becoming Increasingly Important To Understand The Impact Of Ozone Towards Climate Change, To Monitor And Understand Depletion Of The Ozone Layer, To Further Understand Its Role In Atmospheric Chemistry, And To Assess Its Impact On Human Health And The Productivity Of Agricultural Crops.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $1,049,881.00
- National Aeronautics And Space Administration (Nasa)
- NNX17CG16C
- To Enable Widespread And Rapid Airborne Bathymetric Lidar To Adequate Depths In Many Ocean Regions.
- 27 Jan 2020
- To Enable Widespread And Rapid Airborne Bathymetric Lidar To Adequate Depths In Many Ocean Regions.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,848.00
- National Aeronautics And Space Administration (Nasa)
- 0002
- High-Resolution Ladar For Intelligience, Surveillance, And Reconnaissance Damage Assessment
- 12 Jan 2018
- High-Resolution Ladar For Intelligience, Surveillance, And Reconnaissance Damage Assessment
- Fa9451 Det 8 Afrl Pkd
- Department Of Defense (Dod)
- $551,289.00
- Department Of Defense (Dod)
- NNX16CL09C
- Real-Time, High-Frequency Measurements Of Atmospheric Ozone Are Becoming Increasingly Important To Understand The Impact Of Ozone Towards Climate Change, To Monitor And Understand Depletion Of The Ozone Layer, To Further Understand Its Role In Atmospheric Chemistry, And To Assess Its Impact On Human Health And The Productivity Of Agricultural Crops.
- 3 Apr 2020
- Real-Time, High-Frequency Measurements Of Atmospheric Ozone Are Becoming Increasingly Important To Understand The Impact Of Ozone Towards Climate Change, To Monitor And Understand Depletion Of The Ozone Layer, To Further Understand Its Role In Atmospheric Chemistry, And To Assess Its Impact On Human Health And The Productivity Of Agricultural Crops.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $1,049,881.00
- National Aeronautics And Space Administration (Nasa)
- NNX16CL09C
- Real-Time, High-Frequency Measurements Of Atmospheric Ozone Are Becoming Increasingly Important To Understand The Impact Of Ozone Towards Climate Change, To Monitor And Understand Depletion Of The Ozone Layer, To Further Understand Its Role In Atmospheric Chemistry, And To Assess Its Impact On Human Health And The Productivity Of Agricultural Crops.
- 28 Jan 2021
- Real-Time, High-Frequency Measurements Of Atmospheric Ozone Are Becoming Increasingly Important To Understand The Impact Of Ozone Towards Climate Change, To Monitor And Understand Depletion Of The Ozone Layer, To Further Understand Its Role In Atmospheric Chemistry, And To Assess Its Impact On Human Health And The Productivity Of Agricultural Crops.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $1,049,881.00
- National Aeronautics And Space Administration (Nasa)