Demonstration of Tunable Three-Body Interactions between Superconducting Qubits.

Nonpairwise multiqubit interactions present a useful resource for quantum information processors. Their implementation would facilitate more efficient quantum simulations of molecules and combinatorial optimization problems, and they could simplify error suppression and error correction schemes. Here, we present a superconducting circuit architecture in which a coupling module mediates two-local and three-local interactions between three flux qubits by design.

Suppressing relaxation in superconducting qubits by quasiparticle pumping.

Dynamical error suppression techniques are commonly used to improve coherence in quantum systems. They reduce dephasing errors by applying control pulses designed to reverse erroneous coherent evolution driven by environmental noise. However, such methods cannot correct for irreversible processes such as energy relaxation.

Hepatic clearance and drug metabolism using isolated perfused rat liver.

The isolated perfused rat liver (IPRL) has been extensively used as an intact organ model for determination of hepatic clearance and metabolism of drugs. The IPRL model can also be applied to determine physiologically based pharmacokinetics. Since the IPRL model avoids neural and hormonal interferences and excludes influences from absorption processes and non-hepatic elimination routes such as renal excretion and respiration, it provides a relatively clean hepatic system to study metabolism and pharmacokinetics.