Add to ORKGAbstract. Effective magnetic moments of drift Rydberg atoms in strong magnetic fields are obtained for different energy and angular-momentum states. Classical two-body trajectory calculations and quantummechanical one-body calculations are employed. For heavy atoms such as rubidium, the trapping dynamics can largely be explained by the net magnetic moment due to the cyclotron and the magnetron motion of the Rydberg electron. In light Rydberg atoms such as hydrogen, the intrinsic two-body nature of the dynamics becomes manifest in that the ionic motion significantly contributes to the effective magnetic moment. Also, light drift Rydberg atoms exhibit an anisotropic response to field-inhomogeneities parallel and transverse to the magnetic-fie...
Highly excited, or Rydberg, atoms can be made stationary with a combination of lasers and magnetic f...
Triplet (S = 1) He Rydberg atoms in supersonic beams with an initial velocity of 350 m s-1 have been...
We investigate electronically excited atoms in a magnetic guide. It turns out that the Hamiltonian d...
Abstract. Effective magnetic moments of drift Rydberg atoms in strong magnetic fields are obtained f...
Effective magnetic moments of drift Rydberg atoms instrong magnetic fields are obtained for differen...
Magnetic trapping is a well-established technique for ground state atoms. We seek to extend this con...
Cold Rydberg atoms and ultracold plasmas have been studied in the strong-magnetization regime. In th...
Rydberg atoms in strong magnetic fields are of current experimental interest.[1, 2] Such systems are...
\u3cp\u3eWe explore the possibility to trap Rydberg atoms in tightly confining magnetic microtraps. ...
Interaction-induced stabilization of ultracold Rydberg atoms in a Ioffe-Pritchard trap — Subject of ...
We report on the observation of interactions between ultracold Rydberg atoms and ions in a Paul trap...
We discuss the properties of Rydberg atoms in a magnetic Ioffe-Pritchard trap being commonly used in...
We review the field of ultralong-range Rydberg molecules with a focus on recent developments. We bri...
In this thesis, we examine the ponderomotive interaction between an applied optical field and a high...
Subject of this thesis is the theoretical study of the quantum properties of ultracold Rydberg atoms...
Highly excited, or Rydberg, atoms can be made stationary with a combination of lasers and magnetic f...
Triplet (S = 1) He Rydberg atoms in supersonic beams with an initial velocity of 350 m s-1 have been...
We investigate electronically excited atoms in a magnetic guide. It turns out that the Hamiltonian d...
Abstract. Effective magnetic moments of drift Rydberg atoms in strong magnetic fields are obtained f...
Effective magnetic moments of drift Rydberg atoms instrong magnetic fields are obtained for differen...
Magnetic trapping is a well-established technique for ground state atoms. We seek to extend this con...
Cold Rydberg atoms and ultracold plasmas have been studied in the strong-magnetization regime. In th...
Rydberg atoms in strong magnetic fields are of current experimental interest.[1, 2] Such systems are...
\u3cp\u3eWe explore the possibility to trap Rydberg atoms in tightly confining magnetic microtraps. ...
Interaction-induced stabilization of ultracold Rydberg atoms in a Ioffe-Pritchard trap — Subject of ...
We report on the observation of interactions between ultracold Rydberg atoms and ions in a Paul trap...
We discuss the properties of Rydberg atoms in a magnetic Ioffe-Pritchard trap being commonly used in...
We review the field of ultralong-range Rydberg molecules with a focus on recent developments. We bri...
In this thesis, we examine the ponderomotive interaction between an applied optical field and a high...
Subject of this thesis is the theoretical study of the quantum properties of ultracold Rydberg atoms...
Highly excited, or Rydberg, atoms can be made stationary with a combination of lasers and magnetic f...
Triplet (S = 1) He Rydberg atoms in supersonic beams with an initial velocity of 350 m s-1 have been...
We investigate electronically excited atoms in a magnetic guide. It turns out that the Hamiltonian d...