Research and Development
Our R&D department is working on several projects in the fields of physics, mathematics, chemistry and computer science
We offer the following solution to the problem of quantum computer::
Stage 1. Creation of a quantum radiation resonator and optoelectronic conversion device Stage 2: Creation of a single device for quantum transformation and data storage.
Stage 3. Mathematical modeling of the main structure and structure of quantum transformation
Wide bandgap carbon-containing materials are materials such as diamond, which has a large energy gap between its valence and conduction bands, allowing it to operate at high voltages and frequencies, making it suitable for applications like power electronics and high-power devices where traditional semiconductors would fail
Currently, there are no gas containers available on the market capable of sustaining damage or breakage without explosion. We have developed revolutionary technology making our containers 100% safe. In case of container damage or breakage, combustible gases do not explode.
SiC (silicon carbide) is used in high-temperature/high-voltage semiconductor electronics. Our silicon carbide wafers can be used as a substrate for optoelectronics, solar inverters, power-factor correction, and in other applications. Wafers and substrates can be customized to meet customer needs
Bulk crystals of SixGe1-x solid solutions are promising candidates for a variety of microelectronic and optoelectronic. SixGe1-x single crystals for microelectronic and optoelectronic device applications have generally been prepared in the form of thin films grown on a silicon substrate by various epitaxial growth techniques. Bulk monocrystalline SixGe1-x alloy also has expected application as a photo-detector, a thermo-generator, an x-ray and neutron monochromator, etc.In order to achieve high quality SixGe1-x crystals with different germanium contents, a variety of melt crystal growth techniques, such as Czochralski, Bridgman are used
Hg1-xCdxTe (mercury cadmium telluride) is narrow direct bandgap alloy with a tunable bandgap spanning the shortwave infrared to the very long wave infrared regions.HgCdTe is the only common material that can detect infrared radiation in both of the accessible atmospheric windows. These are from 3 to 5 µm (the mid-wave infrared window, abbreviated MWIR) and from 8 to 12 µm (the long-wave window, LWIR).HgCdTe is a common material in photodetectors of Fourier transform infrared spectrometers. We supply crystals and wafers according to customer’s requirements.
