CIQTEK SEM500 is a high-resolution, feature-rich field emission scanning electron microscope (FE-SEM, FEG SEM). Advanced column design, high voltage tunneling technology (SuperTunnel), low aberration non-leakage magnetic objective lens design, to achieve low-voltage high-resolution imaging, while magnetic samples can be applied. Optical navigation, advanced automatic functions, well-designed human-machine interaction, and optimized operation. Whether experienced or not, one can quickly get started with high-resolution shooting task

CIQTEK SEM4000 is an analytical thermal field emission scanning electron microscope equipped with a high-brightnesslonglife Schottky field emission electron gun. Three-stagemagnetic lens design, with large and continuously adjustable beam current, has obvious advantages in EDS, EBSD, WDS, and other applications. Support low vacuum mode, can directly observe the conductivity of weak or non-con-ductive samples. Standard optical navigation mode, as well as intuitive operation interface, make your analysis work easy.

CIQTEK SEM3200 is a high-performance tungsten filament scanning electron microscope. It has excellent image quality, low vacuum mode compatibility, high resolution images in different fields of view. The depth of field is large and the image is rich in stereo.

The CIQTEK SEM2000 is a basic and versatile analytical tungsten filament scanning electron microscope with 20 kV resolution up to 3.9 nm and support for upgrading to 30 kV, allowing observation of microstructural information of sub-microscale samples. It has a larger range of motion than a desktop / benchtop SEM and is suitable for rapid screening of samples, and has more expansion interfaces for BSED, EDS/EDX, and other accessories to enable a wider range of applications.

CIQTEK Diamond Quantum Computer for Education is a teaching instrument based on the spin magnetic resonance of nitrogen-vacancy (NV) center in diamond. By controlling basic physical quantities such as optics, electricity and magnetism, it implements quantum manipulation and readout of NV center spins, which enables the demonstration of basic concepts of quantum computing, such as qubits, quantum gates and quantum algorithms. The instrument works at room temperature (no need for a cryogenic environment), making the operating cost almost zero. The desktop design makes it easy to adapt to classrooms, laboratories, and other environments for conducting quantum mechanics and quantum computing experimental courses.

CIQTEK Quantum Photon Experimental Platform adopts BBO parametric down-conversion, single photon detection, and other technologies, which can carry out experiments such as quantum entanglement source preparation and verification, and quantum random number generation. At the same time, the hardware module supports manual construction and debugging. The benchtop design allows it to adapt to a variety of different teaching environments, both in the classroom and in the laboratory, where experimental teaching of quantum optics can be easily carried out. CIQTEK Quantum Photon Experimental Platform can help and promote universities and colleges to open and optimize advanced physics experimental courses, modern physics experimental courses, optical engineering professional courses, and other related work.

CIQTEK ASG8000 series are high-speed, high-time resolution, programmable digital delay pulse generators capable of outputting complex pulse sequences with 1ns width resolution while providing lower RMS jitter, higher accuracy, more output interfaces, and freer scheduling. The product provides precise timing control functions for a wide variety of applications in microscopic magnetic resonance (NMR, EPR, ODMR), quantum computing, ultrasound, radar, medical imaging, and many other fields. The SDK supports C++, Python, and LabVIEW.

CIQTEK AWG4100 is a multi-channel arbitrary waveform generator with high performance. It has four independent channels for waveform output and each channel can provide single-ended waveform output with a sampling rate as high as 1.2 GSa/s and a vertical resolution of 16 bits. Each channel has the maximum storage depth of 512 MSa and it is equipped with flexible user-defined waveform editing function and sequence playing function which can easily satisfy complicated waveform demands under various scenarios.

CIQTEK SCS1800 synchronous control system is based on high-precision network clock and time synchronization technology to realize the distribution of multi-node clock signals and sub-nanosecond synchronization control. It can be widely used in quantum computing, industrial automation control, distributed base stations, power grid synchronization, automatic control, adaptive array antennas and multi-static radars, etc.

CIQTEK AFS1025 acquisition feedback system is a comprehensive measurement and control system integrating analog signal acquisition and signal output. It can be widely used in superconducting quantum computing, communication, radar, electronic warfare, and nuclear magnetic resonance. It integrates 2 channels of signal output, acquisition, and FPGA real-time signal processing algorithm.