Del Mar Photonics Ti:Sapphire laser lease program helps Physical Optics Corporation in Phase I and Phase II Army awards
Marvin Niimura, Ph.D., from Physicals Optics Corporation wrote to us:
Thank you for your quick reply and kind note. I have been always impressed with your business and products. In particular I was very appreciative when you kindly arranged me to lease your Ti: Sapphire laser, Trestles. Your two personnel's who setup the laser in our lab at POC were also excellent.
I was invited from the Army to submit the Phase II proposal based on the same Phase I work. The due is coming Monday (19th of March). That's why I asked you the price of your products urgently. My Phase I project ($70K) is entitled: "Terahertz Spectroscopic Radar Mobile System for Detection of Concealed Explosives," which was published in the SBIR website:
PHYSICAL OPTICS CORP.
Photonic Systems Division, 20600 Gramercy Place, B
Torrance, CA 90501
Phone: (310) 320-3088
PI:Dr. Marvin G. Niimura
Topic#: ARMY 05-087 Selected for Award
Title: Terahertz Spectroscopic Radar Mobile System for Detection of Concealed Explosives
To address the U.S. Army need for new techniques for detecting concealed explosives, Physical Optics Corporation (POC) proposes a new 100 m standoff Terahertz Spectroscopic Radar (TSR) which uses terahertz (THz) molecular spectroscopy to detect the unique THz absorption wavelength signature of an explosive's outgassed material. This design exhibits the most decisive identification pattern of explosives, whose molecular vibration modes lie in the THz region. To detect these specific explosive identifiers, TSR's innovative design analyzes the retroreflected THz signals from targets rather than the transmitted THz signals common to the conventional spectroscopy performed inside a laboratory. The TSR design combines a wideband (1-20 THz) transmitter and a receiver spectrometer, built on a mobile station. Using a high-quality submillimeter wave radar to send high rep-rate (~100 MHz) THz probing pulses, we can identify not only the explosive but also the location of the target with spatial resolution better than 0.03 mm since our radar pulsewidth is faster than 100 femtosecond (fs). The average power of our source is exceptionally high (~100 W) compared with any other THz sources. In Phase I we will build a preliminary TSR prototype, while Phase II will focus on a full engineering prototype.
THZ spectrometer based on femtosecond fiber laser
- Photoconductive Antenna for THZ
waves - Trestles Finesse Ti:Sapphire
Teahupoo Amplified Ti:Sapphire Laser
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