The paper’s lead creator is Antti Vepsäläinen, a postdoc in MIT’s Research

Superconducting qubits are electrical circuits produced using superconducting materials. They involve huge numbers of matched electrons, known as Cooper combines, that course through the circuit without opposition and work together to keep up with the qubit’s dubious superposition state. Assuming the circuit is warmed or in any case upset, electron sets can separate into “quasiparticles,” causing decoherence in the qubit that restricts its activity.

There are many wellsprings of decoherence that could undermine a qubit, like fluctuating attractive and electric fields, nuclear power, and even impedance between qubits.

Researchers have long associated that extremely low levels with radiation might have a comparable weakening impact in qubits.

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