INTENTAS -- An entanglement-enhanced atomic sensor for microgravity

TL;DR

The paper presents the development of an entanglement-enhanced atomic sensor using Bose-Einstein condensates designed for microgravity environments, aiming for high-precision quantum sensing in space.

Contribution

It introduces a novel all-optical BEC creation system optimized for microgravity, addressing SWaP challenges and enabling entanglement-based measurements in space.

Findings

Design achieves low-noise environment for entanglement detection.

Flexible all-optical BEC creation system developed.

Potential for high-precision quantum sensing in space.

Abstract

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 entanglement-enhanced sensitivities and extended interrogation times. The project addresses significant challenges related to size, weight, and power management (SWaP) specific to the experimental platform at the Einstein-Elevator in Hannover. The design ensures a low-noise environment essential for the creation and detection of entanglement. Additionally, the apparatus features an innovative approach to the all-optical creation of BECs, providing a flexible system for various configurations and meeting the requirements for rapid turnaround times. Successful demonstration of this technology in the Einstein-Elevator will pave the way for a future deployment in space, where its potential applications will unlock high-precision quantum sensing.