Add to ORKGPulsed lasers offer significant advantages over continuous wave (CW) lasers in the coherent control of qubits. Here we review the theoretical and experimental aspects of controlling the internal and external states of individual trapped atoms with pulse trains. Two distinct regimes of laser intensity are identified. When the pulses are sufficiently weak that the Rabi frequency Ω is much smaller than the trap frequency ω trap, sideband transitions can be addressed and atom-atom entanglement can be accomplished in much the same way as with CW lasers. By contrast, if the pulses are very strong Ω ≫ω trap, impulsive spin-dependent kicks can be combined to create entangling gates which are much faster than a trap period. These fast entangling gat...
This paper reviews recent progress in experiments to control quantum dynamics in condensed phase and...
Advances in engineering quantum systems are expected to lead to a new generation of quantum technolo...
DoctorQuantum lights have been the essential sources for exploring fundamental quantum effects in qu...
Trapped atomic ions are a promising medium for quantum computing, due to their long coherence times ...
We demonstrate single-qubit operations on a trapped atom hyperfine qubit using a single ultrafast pu...
We demonstrate the use of an optical frequency comb to coherently control and entangle atomic qubits...
In the first part of this dissertation, we consider decelerating and cooling an ensemble of multilev...
Ultrafast electronic dynamics are typically studied using pulsed lasers. Here we demonstrate a ...
One of the major problems in building a quantum computer is the development of scalable and robust m...
We report entanglement of a single atom's hyperfine spin state with its motional state in a time sca...
We show that a single, trapped, laser-driven atom in a high-finesse optical cavity allows for the qu...
Ultracold samples of laser-cooled atoms are quantum systems over which modern atomic physicists can ...
The coherent interaction between a laser-driven single trapped atom and an optical high-finesse cavi...
Tunable lasers, sources of intense narrow-band coherent radiation, enabled the parity violation expe...
Quantum bits (qubits) based on individual trapped atomic ions are a promising technology for buildin...
This paper reviews recent progress in experiments to control quantum dynamics in condensed phase and...
Advances in engineering quantum systems are expected to lead to a new generation of quantum technolo...
DoctorQuantum lights have been the essential sources for exploring fundamental quantum effects in qu...
Trapped atomic ions are a promising medium for quantum computing, due to their long coherence times ...
We demonstrate single-qubit operations on a trapped atom hyperfine qubit using a single ultrafast pu...
We demonstrate the use of an optical frequency comb to coherently control and entangle atomic qubits...
In the first part of this dissertation, we consider decelerating and cooling an ensemble of multilev...
Ultrafast electronic dynamics are typically studied using pulsed lasers. Here we demonstrate a ...
One of the major problems in building a quantum computer is the development of scalable and robust m...
We report entanglement of a single atom's hyperfine spin state with its motional state in a time sca...
We show that a single, trapped, laser-driven atom in a high-finesse optical cavity allows for the qu...
Ultracold samples of laser-cooled atoms are quantum systems over which modern atomic physicists can ...
The coherent interaction between a laser-driven single trapped atom and an optical high-finesse cavi...
Tunable lasers, sources of intense narrow-band coherent radiation, enabled the parity violation expe...
Quantum bits (qubits) based on individual trapped atomic ions are a promising technology for buildin...
This paper reviews recent progress in experiments to control quantum dynamics in condensed phase and...
Advances in engineering quantum systems are expected to lead to a new generation of quantum technolo...
DoctorQuantum lights have been the essential sources for exploring fundamental quantum effects in qu...