Equipments

Designed for X-ray topographic studies.

Designed for X-ray spectrometric studies.

Provides maximum efficiency, as well as the most accurate output signals, while maintaining the highest output power levels with the lowest harmonics. As the world's leading signal generator, it can perform the most demanding control and measurement tasks in RF semiconductor, and wireless in the field of modules and systems for the communications, aerospace, and defense industries.

• Frequency range: 8 kHz to 12.75 GHz.
• SSB phase noise –132 dBc (typ.) at 10 GHz and 10 kHz offset.
• Wideband noise –162 dBc (avg.) at 10 GHz and 30 MHz offset.

Maximum output power exceeds 20 dBm over a wide frequency range.

Exceptionally low harmonics.

The power supply is designed to apply a DC voltage of up to 30 V.

The power supply is designed to apply a DC voltage of up to 15 V.

The power supply is designed to apply a DC voltage of up to 30 V.

A laser generates pulsed white light. It is spatially coherent radiation and consists of light frequencies from 400 to 2400 nm.

The device is used to generate supercontinuum.

The spectrometer is designed to perform spectral analysis in the optical range of 200-1100 nm.

A camera records the intensity of light. It is used in many areas, such as beamforming, optical imaging, and optical computing.

A camera records the intensity of light. It is used in many fields, such as beamforming, optical imaging, and optical counting.

A camera records the intensity of light. It is used in many fields, such as beamforming, optical imaging, and optical counting.

Used for the deposition of thin films on a substrate.

An improved system that allows for a wide range of measurements. The probe tips are not sharp needles, but spring-loaded contacts, which prevents damage to delicate samples, such as nanometer-thick polymer films.

• Probe pitch: 1.27 mm
• Rectangular sample size range: 5–60 mm
• Circular sample size range (diameter): 5–76 mm
• Maximum sample thickness: 10 mm
• Surface resistivity range: 10 mΩ–10 mΩ

A generator of femtosecond pulse durations at a wavelength of 1060 nm.

An optical isolator is used to prevent reflections of the laser beam from optical surfaces towards the laser.

Designed for microstructure analysis, testing, and microphotography of various materials.

A special optical table allows you to perform experimental work in a quiet environment.

The optical spectrum analyzer is used to record the spectra of laser pulses in the 350–1750 nm range.

A 4-channel analog Oscilloscope with a bandwidth of up to 200 MHz is used to record time signals.