The Deep Space Atomic Clock: the first demonstration of a trapped ion atomic clock in space

Abstract: Atomic clocks, which lock the frequency of an oscillator to the extremely stable quantized energy levels of atoms, are essential for navigation applications such as deep space exploration1 and the Global Positioning System (GPS)2 and as scientific tools for addressing questions in fundamental physics3,4,5,6. Atomic clocks that can be launched into space are an enabling technology for GPS, but to date have not been applied to deep space navigation and have seen only limited application to scientific questions … Show more

“…Scientists can now trap single atoms or photons, acquire excellent control on their quantum states (inner and outer degrees of freedom) and precisely track their evolution by the time [5]. A single ion or an ensemble of ions can be secluded with respect to external perturbations, then engineered in a distinct quantum state and trapped in ultrahigh vacuum for a long period of time (operation times of months to years) [6][7][8], under conditions of dynamical stability. Under these circumstances, the superposition states required for quantum computation can live for a relatively long time.…”

Investigations on Dynamical Stability in 3D Quadrupole Ion Traps

“…Scientists can now trap single atoms or photons, acquire excellent control on their quantum states (inner and outer degrees of freedom) and precisely track their evolution by the time [5]. A single ion or an ensemble of ions can be secluded with respect to external perturbations, then engineered in a distinct quantum state and trapped in ultrahigh vacuum for a long period of time (operation times of months to years) [6][7][8], under conditions of dynamical stability. Under these circumstances, the superposition states required for quantum computation can live for a relatively long time.…”

Investigations on Dynamical Stability in 3D Quadrupole Ion Traps