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Scientists from Zurich create a compact optical quantum switch
Quantum computers based on lasers with trapped ion qubits are interesting but very cumbersome. The laser beam travels multi-meter distances along an entire system of mirrors, lenses and other equipment before hitting a pair of entangled ions. Scaling such systems to hundreds and thousands of qubits is still a concern. Especially when you consider that the traps (qubits) are cooled to almost absolute zero. But there is a solution to the problem, and it has been tested.
Ion trap with built-in optical waveguides. Image source: K. Metha / ETH Zurich
A few years ago, a group of researchers from MIT suggested directing a laser beam at the qubits not through the air (as in the example in the photo below), but along the waveguides inside the chip with the ion trap. This proposal was recently implemented by a group of scientists from the Higher Technical School of Zurich (ETH Zurich). Researchers have designed, built and tested a virtual optical quantum switch that could pave the way for general-purpose scalable quantum computers.
«Typical» quantum computer based on linear optical elements (Quantum Optics Lab Olomouc)
A silicon chip with 100 nm waveguides was fabricated using a classic technical process. In the picture you can see a schematic representation of the chip in the place where the laser beam breaks free — it leaves the end of the waveguide inside the chip and strikes a pair of entangled ions. Ions, in turn, are captured by two electrodes — each by its own, and together they are in such a system in an entangled state.
Cutaway image of an ion trap with waveguides inside. Image source: Chiara Decaroli / ETH Zurich
“By integrating tiny waveguides into microcircuits containing electrodes to capture ions, we can direct light directly onto those ions. Thus, vibrations of the cryostat or other parts of the device cause much less interference. «.
The laser beam comes out from the inside of the chip, and not from the outside as before. Image source: Chiara Decaroli / ETH Zurich
In the proposed solution, the waveguides can be separated to control many traps located very closely. This simplifies the optical system and protects it from interference and errors. In production, such traps will be very cheap, but the main thing is that such solutions will help to significantly and inexpensively increase the number of qubits in optical quantum computers.