Bauman Moscow State Technical University presented an innovative laser installation capable of generating soliton molecules with 14 bound pulses, the university's press service reported.
When passing through nonlinear media, soliton molecules can create compressed entangled states. The resulting pulses have very low noise and high stability. Because of this, entangled states have become more resistant to bond breaking and error occurrence.
Today, soliton molecules are at the forefront of laser science, and their applications are extremely broad. We plan to further experimentally prove the hypothesis of self-subtraction of noise in such pulsed structures Information taken from the portal.
A standard laser diode was used to create the laser setup. Scientists were able to regulate the number of molecules generated.
In the future, it is planned to experimentally confirm the ability of soliton molecules to self-subtract noise. This will make them even more effective for practical use in quantum computing.
Earlier www1.ru reported that three quantum computers with a capacity of up to 50 qubits could be created in Russia by the end of the year.
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