Simon Kanthak
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View article: INTENTAS - an entanglement-enhanced atomic sensor for microgravity
INTENTAS - an entanglement-enhanced atomic sensor for microgravity Open
The INTENTAS project aims to develop an atomic sensor utilizing entangled Bose-Einstein condensates (BECs) in a microgravity environment. This key achievement is necessary to advance the capability for measurements that benefit from both e…
View article: Proposal for a Bose–Einstein Condensate Based Test of Born's Rule Using Light–Pulse Atom Interferometry
Proposal for a Bose–Einstein Condensate Based Test of Born's Rule Using Light–Pulse Atom Interferometry Open
Light‐pulse atom interferometry with ultra‐cold quantum gases is proposed and numerically benchmarked as a platform to test the modulo‐square hypothesis of Born's rule. The interferometric protocol is based on a combination of double Bragg…
View article: Proposal for a Bose-Einstein condensate based test of Born's rule using light-pulse atom interferometry
Proposal for a Bose-Einstein condensate based test of Born's rule using light-pulse atom interferometry Open
We propose and numerically benchmark light-pulse atom interferometry with ultra-cold quantum gases as a platform to test the modulo-square hypothesis of Born's rule. Our interferometric protocol is based on a combination of double Bragg an…
View article: INTENTAS -- An entanglement-enhanced atomic sensor for microgravity
INTENTAS -- An entanglement-enhanced atomic sensor for microgravity Open
The INTENTAS project aims to develop an atomic sensor utilizing entangled Bose-Einstein condensates (BECs) in a microgravity environment. This key achievement is necessary to advance the capability for measurements that benefit from both e…
View article: Proposal for a long-lived quantum memory using matter-wave optics with Bose-Einstein condensates in microgravity
Proposal for a long-lived quantum memory using matter-wave optics with Bose-Einstein condensates in microgravity Open
Bose-Einstein condensates are a promising platform for optical quantum memories but suffer from several decoherence mechanisms, leading to short memory lifetimes. While some of these decoherence effects can be mitigated by conventional met…
View article: A Dual-Species Atom Interferometer Payload for Operation on Sounding Rockets
A Dual-Species Atom Interferometer Payload for Operation on Sounding Rockets Open
We report on the design and the construction of a sounding rocket payload capable of performing atom interferometry with Bose-Einstein condensates of $^{41}$K and $^{87}$Rb. The apparatus is designed to be launched in two consecutive missi…
View article: Technology roadmap for cold-atoms based quantum inertial sensor in space
Technology roadmap for cold-atoms based quantum inertial sensor in space Open
Recent developments in quantum technology have resulted in a new generation of sensors for measuring inertial quantities, such as acceleration and rotation. These sensors can exhibit unprecedented sensitivity and accuracy when operated in …
View article: Proposal for a long-lived quantum memory using matter-wave optics with Bose-Einstein condensates in microgravity
Proposal for a long-lived quantum memory using matter-wave optics with Bose-Einstein condensates in microgravity Open
Bose-Einstein condensates are a promising platform for optical quantum memories, but suffer from several decoherence mechanisms, leading to short memory lifetimes. While some of these decoherence effects can be mitigated by conventional me…
View article: Time-domain optics for atomic quantum matter
Time-domain optics for atomic quantum matter Open
We investigate time-domain optics for atomic quantum matter. Within a matter-wave analog of the thin-lens formalism, we study optical lenses of different shapes and refractive powers to precisely control the dispersion of Bose–Einstein con…
View article: Prototype of a compact rubidium-based optical frequency reference for operation on nanosatellites
Prototype of a compact rubidium-based optical frequency reference for operation on nanosatellites Open
Space-borne optical frequency references based on spectroscopy of atomic vapors may serve as an integral part of compact optical atomic clocks, which can advance global navigation systems or can be utilized for earth observation missions a…