A Revolution in the Physics of Heat Dissipation

The brighter, nanomachined microprocessor encapsulate shows that the temperature is 10 degrees hotter as it is emitting more thermal radiation away from the microprocessor, i.e. " faster cooling" than the area that has not been nanomachined

ThermOptical Cooling Technologies uses patented ultrafast short pulse laser techniques to form and create nanostructures on thermal spreaders, heat sinks and heat exchangers that increases surface area and emissivity (effectiveness in emitting energy as thermal radiation) for significantly better heat dissipation. Radiation cooling is now a significant factor in the electronics industry!

The transformed surface strongly dissipates heat via radiation and can improve conduction and convection cooling configurations.

Scalable to high volume production
Avoids the use of a coating or chemical processes
Ultra-thin
Durable and cost-effective
No negative impact on system performance and SWAP (strength, weight and power)

Radiation Acquistion Transportation Emission (RATE)

• A Breakthrough in Thermal Management of Electronics •

Contact

Contact Us

vrivas@thermopticalcooling.net

Phone 202-999-5642

A Revolution in the Physics of Heat Dissipation

The transformed surface strongly dissipates heat via radiation and can improve conduction and convection cooling configurations.

​

Scalable to high volume production

Avoids the use of a coating or chemical processes

Ultra-thin

Durable and cost-effective

No negative impact on system performance and SWAP (strength, weight and power)

​

Radiation Acquistion Transportation Emission (RATE)

• A Breakthrough in Thermal Management of Electronics •

Contact Us