Quantum entanglement has been generated and verified in cold-atom experiments and
used to make atom-interferometric measurements below the shot-noise limit. However …

In contrast to light, matter-wave optics of quantum gases deals with interactions even in free
space and for ensembles comprising millions of atoms. We exploit these interactions in a …

We propose a quantum enhanced interferometric protocol for gravimetry and force sensing
using cold atoms in an optical lattice supported by a standing-wave cavity. By loading the …

Significant aspects of advanced quantum technology today rely on rapid control of atomic
matterwaves with hyperfine Raman transitions. Unfortunately, efficient Raman excitations …

Precise control of hyperfine matterwaves via Raman excitations is instrumental to a class of
atom-based quantum technology. We investigate the Raman matterwave control technique …

Recent progress in generating entangled spin states of neutral atoms provides opportunities
to advance quantum sensing technology. In particular, entanglement can enhance the …

This summary of the second Terrestrial Very-Long-Baseline Atom Interferometry (TVLBAI)
Workshop provides a comprehensive overview of our meeting held in London in April 2024 …

Entanglement lies at the core of emergent quantum technologies such as quantum-
enhanced metrology, quantum communication and cryptography, and quantum simulation …

In my thesis work I have explored a variety of ways for using parametric modulation to
control the dynamics of trapped atomic ions. Parametric modulation allows the wavefunction …

Precise control of hyperfine matterwaves via Raman excitations is instrumental to a class of
atom-based quantum technology. We investigate the Raman spinor control technique for …