Whether it is a new component or sub-system for a terahertz instrument or a proof-of-concept prototype system, we will help you to achieve your goals in a short time and with a minimum cost. Before spending a large amount of your budget on equipments we can help you to develop your prototype terahertz components and systems with minimal cost and in much shorter time to get to the go/no-go decision point. Please contact us to discuss your objectives and requirements.
We will help you through every step of design, fabrication, and characterization of your terahertz photoconductive antennas (THz-PCAs). With years of experience in design, fabrication, and test of THz-PCAs, we can provide you with tips for your new antenna designs to address your needs and ensure best antenna performance. We can help you in different stages of THz-PCAs fabrication process, including wafer growth, mask design, lithography, dicing, and wire bonding. Using our unique terahertz measurement setups and laser facilities, we can charactrize your THz-PCAs under both pulsed and continuous-wave laser excitation over a wide range of wavelengths from 700 nm to 2500 nm.
If you need to test a particular material (powder, solid, liquid) under terahertz light and resolve their spectral features and absorption signatures over a wide range of the terahertz frequencies we can help you to achieve your goal. We will test your material of interest in our terahertz time-domain pulsed setups as well as in our terahertz back-ward wave oscillator and our terahertz photomixer setups. Please contact us to discuss your objectives and requirements.
Whether it is a brand new terahertz lab or an extension to an existing lab, we will help you to identify the best vendors to buy your new equipment, prepare a list of components and instruments for your target systems, and design and implement new measurement setups.
We will help you to characterize your terahertz devices (waveguides; filters; photonic band gap structures; surface-plasmon based devices; metamaterial structures; etc.) over a wide range of the terahertz frequencies from a few GHz up to 4.5 THz. We can characterize your devices under wide-band terahertz pulse excitation using our terahertz time-domain setups and also under narrow-band terahertz cw excitations in our terahertz back-ward wave oscillator setup as well as our terahertz photomixer setups. Please contact us to discuss your objectives and requirements.
If you need to measure the carrier life-time for your new fast photoconductor material system, we will help you to do the job. We use an infrared pump-probe system to extract carrier recombination dynamics of fast photoconductor materials.