All Conference Talks
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Dennis Schlippert
Research Group Leader at the INSTITUTE OF QUANTUM OPTICS, HANNOVER
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De Broglie waves and Gravitation
How do de Broglie waves propagate in gravitational fields? We will present experiments which show that 1) they obey the weak Equivalence Principle to 12…
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STRUCKMANN CHRISTIAN: Multi-axis atom interferometry for inertial sensing and navigation
In this contribution, we present a novel method to operate a quantum sensor based on a 2D array of Bose-Einstein Condensates enabling multi-axis sensing through…
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SCHELFHOUT JESSE: A large-momentum-transfer atomic mass measurement scheme in intermediate-scale atom interferometers for determining the fine-structure constant
Abstract Interferometry of atomic de Broglie waves is a powerful technique for precision measurement. With the 2019 redefinition of the Sl base units, atom interferometry…
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REINHARDT DAVID: Enhancing parameter estimation for the nonlinear Schrödinger equation using Möbius transformations
Presentation Speaker: David B. Reinhardt Abstract
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Atomtronic Rotation Sensors
Atomtronics is the emerging technology of building circuits where the current is a flow of ultracold atoms propagating as coherent matter waves inside suitable waveguides. …
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Nonlocal correlations and quantum gain in multiparameter estimation
The nonlocal correlations that exist in quantum physics can be used in a sensor network to improve the sensitivity of the measurement of an extended…
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Test of CPT and Lorentz invariance with a cold (anti)hydrogen beam
Precise spectroscopy of the antihydrogen atom for comparison to it’s matter counternpart, the hydrogen atom, is motivated by searches for New Physics in particular to…
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Clock Atom Interferometry for Long-Baseline Atomic Sensors
Clock atom interferometry makes use of narrow optical clock transitions to metastable excited states are the foundation for the world’s best atomic clocks. Such transitions…
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Towards prime factorisation in holographic traps
Donatella Cassettari Abstract We report the experimental realization of the prime number quantum potential V_N(x), defined as the potential entering the single-particle Schrödinger Hamiltonian with…
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Maxwell Matter Waves: Coherence Properties, Generation, and Applications
Infleqtion and the JILA Institute at the University of Colorado, Boulder
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CARIOQA-PMP: Towards a Pathfinder Mission for Quantum Space Gravimetry
Centre National d’Etudes Spatiales, 18 avenue Edouard Belin, 31400 Toulouse, France *for CARIOQA-PMP Consortium
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Measurement of short range forces with quectonewton stability
I will present quantum sensing of short-range forces with a force sensor based on trapped atom interferometry. Ultracold atoms are first transported with a Bloch…
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Controlling ultracold atoms in optical lattices: theory and practice (but mostly practice)
Quantum optimal control is a fantastic means of manipulating quantum systems for the purposes of quantum technology. In this realm, my specific interests for the…
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Laser Excitation of the Th-229 Nucleus
The low-energy nuclear isomer state in Th-229 is resonantly excited in Th-doped calciumfluoride crystals using a tabletop tunable laser system at 148 nm wavelength. The…
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Continuous Bose-Einstein condensation and continuously-operating optical clocks
The talk will be given by Ananya Sitaram. Ultracold quantum gases are excellent platforms for quantum simulation and sensing. So far these gases have been…
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Universal matter-wave interferometry across the mass & complexity scales
Markus Arndt & the QNP team @ UNIVIE