Justyna P Zwolak,Thomas McJunkin,Sandesh S Kalantre et al.
Justyna P Zwolak et al.
Quantum dots (QDs) defined with electrostatic gates are a leading platform for a scalable quantum computing implementation. However, with increasing numbers of qubits, the complexity of the control parameter space also grows. Traditional me...
Digital Control of a Superconducting Qubit Using a Josephson Pulse Generator at 3 K [0.03%]
使用约瑟夫森脉冲发生器在3K下控制超导量子比特
L Howe,M A Castellanos-Beltran,A J Sirois et al.
L Howe et al.
Scaling of quantum computers to fault-tolerant levels relies critically on the integration of energy-efficient, stable, and reproducible qubit control and readout electronics. In comparison to traditional semiconductor-control electronics (...
Quantum computation of molecular structure using data from challenging-to-classically-simulate nuclear magnetic resonance experiments [0.03%]
使用挑战性经典模拟的核磁共振实验数据进行分子结构的量子计算
Thomas E O&#x;Brien,Lev B Ioffe,Yuan Su et al.
Thomas E O&#x;Brien et al.
We propose a quantum algorithm for inferring the molecular nuclear spin Hamiltonian from time-resolved measurements of spin-spin correlators, which can be obtained via nuclear magnetic resonance (NMR). We focus on learning the anisotropic d...