Add to ORKGWe propose a scheme to accumulate fermionic or bosonic NH radicals ((NH)-N-14 or (NH)-N-15, respectively) in a magnetic trap in order to increase phase-space density. NH molecules prepared in a long-lived metastable state that exhibits a large Stark effect can be brought to a standstill using Stark deceleration. By applying an intense laser field, the NH radicals can then be forced to spontaneously decay to the electronic ground state. In the ground state the NH molecules are no longer sensitive to electric fields but show a significant Zeeman effect instead, enabling confinement and reloading of ground-state molecules in a magnetic trap
The motion of polar molecules can be controlled by time-varying inhomogeneous electric fields. In a ...
The ability to cool and slow atoms with light for subsequent trappingallows investigations of the pr...
We observe magnetic trapping of atomic nitrogen (N14) and cotrapping of ground-state imidogen (N14H,...
We propose a scheme to accumulate fermionic or bosonic NH radicals ((NH)-N-14 or (NH)-N-15, respecti...
Here we report on the accumulation of ground-state NH molecules in a static magnetic trap. A pulsed ...
We report on the Stark deceleration and electrostatic trapping of ¹⁴NH (a¹Δ) radicals. In the trap, ...
Author Institution: Fritz-Haber-Institut der Max-Planck-Gesellschaft, Berlin, GermanyWe report on th...
Contains fulltext : 99115.pdf (author's version ) (Open Access
We here report on the optical pumping of both 14NH and 15NH radicals from the metastable a 1 state i...
NH radicals are magnetically trapped and their Zeeman relaxation and energy transport collision cros...
NH radicals are magnetically trapped and their Zeeman relaxation and energy transport collision cros...
We report the first experimental realization of magnetic trapping of a sample of cold radicals follo...
In this dissertation, substantial headway towards the Zeeman deceleration and magnetic trapping of m...
We observe magnetic trapping of atomic nitrogen (N14) and cotrapping of ground-state imidogen (N14 H...
Contains fulltext : 98942.pdf (publisher's version ) (Open Access
The motion of polar molecules can be controlled by time-varying inhomogeneous electric fields. In a ...
The ability to cool and slow atoms with light for subsequent trappingallows investigations of the pr...
We observe magnetic trapping of atomic nitrogen (N14) and cotrapping of ground-state imidogen (N14H,...
We propose a scheme to accumulate fermionic or bosonic NH radicals ((NH)-N-14 or (NH)-N-15, respecti...
Here we report on the accumulation of ground-state NH molecules in a static magnetic trap. A pulsed ...
We report on the Stark deceleration and electrostatic trapping of ¹⁴NH (a¹Δ) radicals. In the trap, ...
Author Institution: Fritz-Haber-Institut der Max-Planck-Gesellschaft, Berlin, GermanyWe report on th...
Contains fulltext : 99115.pdf (author's version ) (Open Access
We here report on the optical pumping of both 14NH and 15NH radicals from the metastable a 1 state i...
NH radicals are magnetically trapped and their Zeeman relaxation and energy transport collision cros...
NH radicals are magnetically trapped and their Zeeman relaxation and energy transport collision cros...
We report the first experimental realization of magnetic trapping of a sample of cold radicals follo...
In this dissertation, substantial headway towards the Zeeman deceleration and magnetic trapping of m...
We observe magnetic trapping of atomic nitrogen (N14) and cotrapping of ground-state imidogen (N14 H...
Contains fulltext : 98942.pdf (publisher's version ) (Open Access
The motion of polar molecules can be controlled by time-varying inhomogeneous electric fields. In a ...
The ability to cool and slow atoms with light for subsequent trappingallows investigations of the pr...
We observe magnetic trapping of atomic nitrogen (N14) and cotrapping of ground-state imidogen (N14H,...