Cosmic muon flux attenuation methods for superconducting qubit experiments

Abstract: We propose and demonstrate two mitigation methods to attenuate the cosmic muon flux compatible with experiments involving superconducting qubits. Using a specifically-built cosmic muon detector, we find that chips oriented towards the horizon compared to chips looking at the sky overhead experience a decrease of a factor 1.6 of muon counts at the surface. Then, we identify shielded shallow underground sites, ubiquitous in urban environments, where significant additional attenuation, up to a factor 35 for 100-m… Show more

“…As an example, the cryogenic facility at the Laboratori Nazionali del Gran Sasso (LNGS), in Italy, which is covered by a rock overburden of 1.4 km, provides a reduction factor of about 1 million for the muon flux [26], [27]. Nonetheless, as shown in [8], effective suppression factors can also be achieved in shallower sites (up to a factor of 35 for depths of 100 meter). Fig.…”

“…While environmental radioactivity can be mitigated by using dedicated shielding and radio-pure materials in the proximity of the qubits, benefiting from the experience of the scientific community developing low-radioactivity detectors for Particle Physics, cosmic-ray muons cannot be easily suppressed. Interesting studies have shown that shallow underground sites can provide good attenuation factors, ranging from 2 to a factor of 35 for depths of 10 meters and 100 meters, respectively [8]. In addition, it has been demonstrated in [8] using a specificallybuilt cosmic muon detector that, by orienting chips towards the horizon, the muon flux above-ground can be reduced by a factor of 1.6.…”

“…Interesting studies have shown that shallow underground sites can provide good attenuation factors, ranging from 2 to a factor of 35 for depths of 10 meters and 100 meters, respectively [8]. In addition, it has been demonstrated in [8] using a specificallybuilt cosmic muon detector that, by orienting chips towards the horizon, the muon flux above-ground can be reduced by a factor of 1.6. However, to date, the only method to significantly reduce the muon flux is to operate quantum processors in deep underground laboratories [9], [10].…”

Mitigation of Cosmic Rays-Induced Errors in Superconducting Quantum Processors

“…As an example, the cryogenic facility at the Laboratori Nazionali del Gran Sasso (LNGS), in Italy, which is covered by a rock overburden of 1.4 km, provides a reduction factor of about 1 million for the muon flux [26], [27]. Nonetheless, as shown in [8], effective suppression factors can also be achieved in shallower sites (up to a factor of 35 for depths of 100 meter). Fig.…”

“…While environmental radioactivity can be mitigated by using dedicated shielding and radio-pure materials in the proximity of the qubits, benefiting from the experience of the scientific community developing low-radioactivity detectors for Particle Physics, cosmic-ray muons cannot be easily suppressed. Interesting studies have shown that shallow underground sites can provide good attenuation factors, ranging from 2 to a factor of 35 for depths of 10 meters and 100 meters, respectively [8]. In addition, it has been demonstrated in [8] using a specificallybuilt cosmic muon detector that, by orienting chips towards the horizon, the muon flux above-ground can be reduced by a factor of 1.6.…”

“…Interesting studies have shown that shallow underground sites can provide good attenuation factors, ranging from 2 to a factor of 35 for depths of 10 meters and 100 meters, respectively [8]. In addition, it has been demonstrated in [8] using a specificallybuilt cosmic muon detector that, by orienting chips towards the horizon, the muon flux above-ground can be reduced by a factor of 1.6. However, to date, the only method to significantly reduce the muon flux is to operate quantum processors in deep underground laboratories [9], [10].…”

Mitigation of Cosmic Rays-Induced Errors in Superconducting Quantum Processors