Using Temporal Entanglement to Perform Thermodynamical Work

Using the Deutsch-Jozsa algorithm to determine parts of an array and apply a specified function to each independent part

Using the J1-J2 Quantum Spin Chain as an Adiabatic Quantum Data Bus

Using the no-signaling condition for constraining the nonidealness of a Stern-Gerlach setup

Using unitary operations to preserve quantum states in the presence of relaxation

Using Wave-Packet Interferometry to Monitor the External Vibrational Control of Electronic Excitation Transfer

Using weak nonlinearity under decoherence for macroscopic-entanglement generation and quantum computation

Utilizing Encoding in Scalable Linear Optics Quantum Computing

Vacuum - induced stationary entanglement in radiatively coupled three - level atoms

Vacuum as a less hostile environment to entanglement

Vacuum degeneracy of a circuit-QED system in the ultrastrong coupling regime

Vacuum effects in a vibrating cavity: time refraction, dynamical Casimir effect, and effective Unruh acceleration

Vacuum Energy and Repulsive Casimir Forces in Quantum Star Graphs

Vacuum energy between a sphere and a plane at finite temperature

Vacuum Energy Density near Fluctuating Boundaries

Vacuum entanglement enhancement by a weak gravitational field

Vacuum entanglement governs the bosonic character of magnons

Vacuum field correlations and three-body Casimir-Polder potential with one excited atom

Vacuum fluctuation force on a rigid Casimir cavity in a gravitational field

Vacuum fluctuation forces between ultra-thin films