SBIR-STTR Award

Cryogenic Optical Refrigeration for Space Applications
Award last edited on: 6/24/2014

Sponsored Program
SBIR
Awarding Agency
DOD : AF
Total Award Amount
$899,890
Award Phase
2
Solicitation Topic Code
AF131-083
Principal Investigator
Richard Epstein

Company Information

ThermoDynamic Films LLC (AKA: TDF)

1313 Madrid Road
Anta Fe, NM 87505
   (505) 301-1224
   N/A
   www.cryoraycoolers.com/
Location: Single
Congr. District: 01
County: Bernalillo

Phase I

Contract Number: ----------
Start Date: ----    Completed: ----
Phase I year
2014
Phase I Amount
$149,986
Optical refrigeration is currently the only demonstrated all-solid-state cryocooling technology. Optical cryocoolers use laser light to cool small crystal or glass cooling elements. The cooling element absorbs the laser light and reradiates it at higher energy, an example of anti-Stokes fluorescence. The extra energy of the outgoing light comes from the thermal energy of the cooling element, which in turn becomes colder. This Phase I proposal, entitled ?Cryogenic Optical Refrigeration for Space Applications,? directly addresses the deploying optical refrigerator for cooling infrared sensors aboard DoD space missions. ThermoDynamic Films LLC (TDF), in collaboration with the University of New Mexico (UNM), proposes to design fully functional prototype cryogenic optical refrigerators and improve the key components needed to make these refrigerators operate at lower temperatures and higher efficiencies. In particular, the proposers will develop new, higher-efficiency cooling materials and they will design and characterize the thermal links that connect the refrigerators to the sensors. The TDF/UNM collaboration is internationally recognized as the pioneer in the field of optical refrigeration. This collaboration is the only group of investigators to have demonstrated optical cryocooling, and it is vigorously advancing both the science and applied aspects of this revolutionary technology.

Benefit:
In many areas of national defense, scientific and laboratory analytic instruments, medicine and high performance electronics, it is necessary to cool instruments and devices to cryogenic temperatures (below -150°Celsius). Cryocoolers are essential components in the infrared (IR) systems that are used for defense applications such as surveillance and ballistic missile guidance. Cryocoolers are an important part of the U.S. government?s priority of heightened homeland and international military security. Cryocoolers are also needed to cool superconductors in a host of medical and geological applications. With no moving parts, TDF?s cryogenic optical refrigerators would not be subject to wear. Additionally, they do not utilize any fluids, which can leak and generally need replenishing. Additional advantages include the compactness of these refrigerators, total lack of vibrations, agility, high temperature stability, the absence of electromagnetic interference (EMI) and rapid cool down. These advantages are particularly compelling for aerospace applications, such as those for space-borne infrared sensors.

Keywords:
Optical Cooling, Optical Refrigeration, Cryocooling, Solid-State Cooling, Lasers, Anti-Stokes Luminescence, Sensor Cooling, Space-Borne Ir Sensor Cooling, Vibraton-Free

Phase II

Contract Number: ----------
Start Date: ----    Completed: ----
Phase II year
2014
Phase II Amount
$749,904
If awarded a SBIR Phase II contract, ThermoDynamic Films, LLC, together with the University of New Mexico (UNM) will build a first-generation optical cryocooler. They will add a calibrated load to the device and characterize its efficiency and its cooling speed. Solid-state cryocoolers, which are compact and produce no vibrations, are ideal for many space-born and terrestrial electronics and sensor applications. Currently, the dominant solid-state cooling technology is thermoelectric cooling, which uses the electrical Peltier effect. Despite decades of effort, the lowest achievable temperature for multi-stage thermoelectric coolers (TECs) is around 170 K. The TDF/UNM team is developing an alternative approach to solid-state cooling technology: optical cryocooling. To date, this collaboration has used this technology to cool from room temperature to 93 K with about 1% efficiency. This is the world record cooling for optical refrigeration - or any solid-state cooling technology.

Benefit:
In many areas of national defense, scientific and laboratory analytic instruments, medicine and high performance electronics, it is necessary to cool instruments and devices to cryogenic temperatures (below -150?Celsius). Cryocoolers are essential components in the infrared (IR) systems that are used for space-born defense applications such as surveillance and ballistic missile guidance. Cryocoolers are an important part of the U.S. government?s priority of heightened homeland and international military security. Cryocoolers are also needed to cool superconductors in a host of medical and geological applications. With no moving parts, the optical cryocoolers being developed by ThermoDynamic Films, LLC would not be subject to wear. Additionally, they do not utilize any fluids, which can leak and generally need replenishing. Additional advantages include the compactness of these refrigerators, total lack of vibrations, agility, high temperature stability, the absence of electromagnetic interference (EMI) and rapid cool down.

Keywords:
Optical Cooling, Optical Refrigeration, Cryocooling, Solid-State Cooling, Lasers, Anti-Stokes Luminescence, Sensor Cooling, Space-Borne Ir Sensor Cooling, Vibration-Free