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.
● Introduction to basic quantum optical devices
● Single photon preparation and detection experiments
● Quantum random number experiments
● Build and debug quantum photon optical path
● Entangled photon coincidence counting experiments
● Experimental tests of Bell Inequalities (*optional)
|405 nm(+/-5 nm)，60 mw
Line Width: 1.2 nm
Size: 0.7 mm
|Maximum Attenuation of Fiber Optic Coupling
|<=3.5dB/km @850 nm，NA 0.13
|APD Detection Efficiency
|>50% @810 nm
CIQTEK Diamond Quantum Computer for Education is a teaching instrument based on the diamond's spin magnetic resonance of the nitrogen-vacancy (NV) center. 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 settings for conducting quantum mechanics and quantum computing experimental courses.Learn More