Towards understanding two- level-systems in amorphous solids: insights from quantum circuits

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Showing 6 of 6 citing papers.

• Thermometry with multilevel transmon probes quant-ph · 2026-06-29 · unverdicted · none · ref 46

  Multilevel anharmonic transmon probes extract more quantum Fisher information about temperature than qubit probes, with bounded anharmonic models confirming robustness beyond the Duffing regime.

• Operating a bistable qubit quant-ph · 2026-05-04 · conditional · none · ref 1

  A one-bit feedback protocol estimates a superconducting qubit's bistable frequency from a single shot and stabilizes gate performance with 77% error reduction at 136 kHz bandwidth.

• SesQ: A Surface Electrostatic Simulator for Precise Energy Participation Ratio Simulation in Superconducting Qubits quant-ph · 2026-03-30 · unverdicted · none · ref 4

  SesQ applies surface discretization and a semi-analytical multilayer Green's function to calculate EPR in qubits with roughly 100x faster capacitance extraction and higher precision than volumetric FEM.

• Surface nanostructuring of NbTi superconducting thin-film resonators for enhanced cryogenic thermometry physics.app-ph · 2026-05-03 · conditional · none · ref 106

  Nanogap patterning on NbTi thin-film resonators decreases TC by 1.5 K and raises dfres/dT to 62 MHz/K at 4.2 K, enhancing cryogenic thermometry sensitivity by 10x.

• Fabless Quantum Chip Design and Commercial Production quant-ph · 2026-06-16 · unverdicted · none · ref 28

  Proposes a fabless-foundry ecosystem for superconducting quantum chips built on certified PDKs, SPICE-Q multiphysics modeling, parameterized cells, Q-EDA automation, and a quantum-IP market.

• Review of Superconducting Qubit Devices and Their Large-Scale Integration quant-ph · 2026-02-04 · accept · none · ref 163

  A review summarizing superconducting qubit types, DiVincenzo criteria implementations, coherence limits from defects, and large-scale integration strategies for quantum computing.