International audienceWe develop interferometry-based atomic inertial sensors robust to Doppler-type inhomogeneities by using quantum optimal control methods. Theoretical results show optimized phase profiles of Raman and Bragg optical π-pulses enabling maximization of the fidelity
International audienceA new class of atomic interferences using ultranarrow optical transitions are ...
International audienceA new class of atomic interferences using ultranarrow optical transitions are ...
We applied an optimal control algorithm to an ultra-cold atomic system for constructing an atomic Sa...
International audienceWe develop interferometry-based atomic inertial sensors robust to Doppler-type...
Atom interferometric sensors can enable extremely precise measurements of inertial motion and extern...
We present the theoretical design and experimental implementation of mirror and beamsplitter pulses ...
Multi-photon Bragg diffraction is a powerful method for fast, coherent momentum transfer of atom wav...
The mirrors and beamsplitters of atom interferometers often suffer from inhomogeneities in coupling ...
We present a methodology for the design of optimal Raman beam-splitter pulses suitable for cold atom...
Atom matterwave interferometry requires mirror and beamsplitter pulses that are robust to inhomogene...
The sensitivity of atom interferometers depends on the fidelity of the light pulses used as beamspli...
Dataset supports: Saywell, J. C., Carey, M., Belal, M., Kuprov, I., & Freegarde, T. (2020). Opti...
We present the theoretical design and experimental implementation of mirror and beamsplitter pulses ...
Abstract Atom-interferometric quantum sensors could revolutionize navigation, civil engineering, and...
Quantum technology is advancing from the lab into the commercial world. However, this path from scie...
International audienceA new class of atomic interferences using ultranarrow optical transitions are ...
International audienceA new class of atomic interferences using ultranarrow optical transitions are ...
We applied an optimal control algorithm to an ultra-cold atomic system for constructing an atomic Sa...
International audienceWe develop interferometry-based atomic inertial sensors robust to Doppler-type...
Atom interferometric sensors can enable extremely precise measurements of inertial motion and extern...
We present the theoretical design and experimental implementation of mirror and beamsplitter pulses ...
Multi-photon Bragg diffraction is a powerful method for fast, coherent momentum transfer of atom wav...
The mirrors and beamsplitters of atom interferometers often suffer from inhomogeneities in coupling ...
We present a methodology for the design of optimal Raman beam-splitter pulses suitable for cold atom...
Atom matterwave interferometry requires mirror and beamsplitter pulses that are robust to inhomogene...
The sensitivity of atom interferometers depends on the fidelity of the light pulses used as beamspli...
Dataset supports: Saywell, J. C., Carey, M., Belal, M., Kuprov, I., & Freegarde, T. (2020). Opti...
We present the theoretical design and experimental implementation of mirror and beamsplitter pulses ...
Abstract Atom-interferometric quantum sensors could revolutionize navigation, civil engineering, and...
Quantum technology is advancing from the lab into the commercial world. However, this path from scie...
International audienceA new class of atomic interferences using ultranarrow optical transitions are ...
International audienceA new class of atomic interferences using ultranarrow optical transitions are ...
We applied an optimal control algorithm to an ultra-cold atomic system for constructing an atomic Sa...
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