Add to ORKGDesigning accurate and high-fidelity broadband pulses is an essential component in conducting quantum experiments across fields from protein spectroscopy to quantum optics. However, constructing exact and analytic broadband pulses remains unsolved due to the nonlinearity and complexity of the underlying spin system dynamics. Here, we present a nontrivial dynamic connection between nonlinear spin and linear spring systems and show the surprising result that such nonlinear and complex pulse design problems are equivalent to designing controls to steer linear harmonic oscillators under optimal forcing. We derive analytic broadband π/2 and π pulses that perform exact, or asymptotically exact, excitation and inversion over a defined bandwidth, a...
The ability to control spins in semiconductors is important in a variety of fields, including spintr...
This paper considers the use of optimal control theory in designing radio frequency excitation Pulse...
International audience: We analyze the direct excitation of wide one-dimensional spectra of nuclei w...
Designing accurate and high-fidelity broadband pulses is an essential component in conducting quantu...
This article gives an overview on recent theoretical progress in controlling the charge and spin dyn...
This article gives an overview on recent theoretical progress in controlling the charge and spin dyn...
We study multiple-spin coherence transfers in linear Ising spin chains with nearest-neighbor couplin...
Broadband inversion pulses that rotate all magnetization components 180 degrees about a given fixed ...
Theoretical methods for designing sequences of radio frequency (rf) radiation pulses for broadband e...
Swept-frequency pulses have found applications in a wide range of areas including spectroscopic tech...
The main goal of this PhD work is an experimental study of coherent excitation of atomic and molecul...
Quantum coherent control is a powerful tool for steering the outcome of quantum processes towards a ...
Optimizing pulse performance often requires a compromise between maximizing signal amplitude and min...
We demonstrate that pulses derived using Optimal Control Theory (OCT) techniques can be used to sign...
The recent thrust in ultrafast magnetization dynamics aims at extending spintronic functionalities t...
The ability to control spins in semiconductors is important in a variety of fields, including spintr...
This paper considers the use of optimal control theory in designing radio frequency excitation Pulse...
International audience: We analyze the direct excitation of wide one-dimensional spectra of nuclei w...
Designing accurate and high-fidelity broadband pulses is an essential component in conducting quantu...
This article gives an overview on recent theoretical progress in controlling the charge and spin dyn...
This article gives an overview on recent theoretical progress in controlling the charge and spin dyn...
We study multiple-spin coherence transfers in linear Ising spin chains with nearest-neighbor couplin...
Broadband inversion pulses that rotate all magnetization components 180 degrees about a given fixed ...
Theoretical methods for designing sequences of radio frequency (rf) radiation pulses for broadband e...
Swept-frequency pulses have found applications in a wide range of areas including spectroscopic tech...
The main goal of this PhD work is an experimental study of coherent excitation of atomic and molecul...
Quantum coherent control is a powerful tool for steering the outcome of quantum processes towards a ...
Optimizing pulse performance often requires a compromise between maximizing signal amplitude and min...
We demonstrate that pulses derived using Optimal Control Theory (OCT) techniques can be used to sign...
The recent thrust in ultrafast magnetization dynamics aims at extending spintronic functionalities t...
The ability to control spins in semiconductors is important in a variety of fields, including spintr...
This paper considers the use of optimal control theory in designing radio frequency excitation Pulse...
International audience: We analyze the direct excitation of wide one-dimensional spectra of nuclei w...