A new heterodyne interferometry scheme allows detection of the nuclear gravitational redshift in 57Fe with percent-level precision on deviations from general relativity using few-meter vertical baselines and day-scale measurements.
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Dressed states generated by static fields protect Heisenberg scaling in quantum metrology for low-temperature noise precisely when the signal generator lies outside the linear span of the system-environment coupling operators.
Demonstrates magneto-optical traps for all stable strontium isotopes using co-designed atomic beam slowing, PIC-met surface laser delivery, and integrated frequency-comb stabilization, advancing bulk-optics-free Sr optical clocks.
citing papers explorer
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Nuclear Heterodyne Interferometry for Gravitational Spectroscopy
A new heterodyne interferometry scheme allows detection of the nuclear gravitational redshift in 57Fe with percent-level precision on deviations from general relativity using few-meter vertical baselines and day-scale measurements.
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Protecting Heisenberg scaling in quantum metrology via engineered dressed states
Dressed states generated by static fields protect Heisenberg scaling in quantum metrology for low-temperature noise precisely when the signal generator lies outside the linear span of the system-environment coupling operators.
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A scalable infrastructure for strontium optical clocks with integrated photonics
Demonstrates magneto-optical traps for all stable strontium isotopes using co-designed atomic beam slowing, PIC-met surface laser delivery, and integrated frequency-comb stabilization, advancing bulk-optics-free Sr optical clocks.
- Shielded inner-shell transitions in atomic samarium for tests of fundamental physics