Add to ORKGRydberg atoms in strong magnetic fields are of current experimental interest.[1, 2] Such systems are commonly treated classically and often are cited as excellent laboratories in which to investigate the correspondence be-tween classical and quantum mechanics. In this contribution we report on the results of numerical experiments investigating the classical dynamics in the regime of current interest. We propose a simple kicked atomic system a
Magnetic trapping is a well-established technique for ground state atoms. We seek to extend this con...
Over the last years, a new platform for quantum technologies has emerged. It is based on arrays of s...
On one side, atom-chip experiments have demonstrated to be a versatile tool to study quantum physics...
The response of rubidium Rydberg atoms with principal quantum number n = 390 to one or more half-cyc...
Thesis (Ph.D.)--Boston UniversityPLEASE NOTE: Boston University Libraries did not receive an Authori...
Abstract. Effective magnetic moments of drift Rydberg atoms in strong magnetic fields are obtained f...
One of the most fascinating and challenging topics of recent years is many- body physics. Owing to t...
My work concerns the experimental study of many-body physics using ultracold atoms. Cold atoms exper...
Cold Rydberg atoms and ultracold plasmas have been studied in the strong-magnetization regime. In th...
Fully quantum and classical trajectory Monte Carlo calculations are performed for a Rydberg alkali a...
Originally, closed-orbit theory was developed in order to analyze oscillations in the near ionizatio...
Highly excited, or Rydberg, atoms can be made stationary with a combination of lasers and magnetic f...
We study highly excited hydrogen and alkali atoms ('Rydberg states') under the influence of a strong...
Abstract. This article presents recent experiments where cold atoms excited to Rydberg states intera...
Ultracold Rydberg atoms serve as good systems in which resonant dipole-dipole interactions can be ob...
Magnetic trapping is a well-established technique for ground state atoms. We seek to extend this con...
Over the last years, a new platform for quantum technologies has emerged. It is based on arrays of s...
On one side, atom-chip experiments have demonstrated to be a versatile tool to study quantum physics...
The response of rubidium Rydberg atoms with principal quantum number n = 390 to one or more half-cyc...
Thesis (Ph.D.)--Boston UniversityPLEASE NOTE: Boston University Libraries did not receive an Authori...
Abstract. Effective magnetic moments of drift Rydberg atoms in strong magnetic fields are obtained f...
One of the most fascinating and challenging topics of recent years is many- body physics. Owing to t...
My work concerns the experimental study of many-body physics using ultracold atoms. Cold atoms exper...
Cold Rydberg atoms and ultracold plasmas have been studied in the strong-magnetization regime. In th...
Fully quantum and classical trajectory Monte Carlo calculations are performed for a Rydberg alkali a...
Originally, closed-orbit theory was developed in order to analyze oscillations in the near ionizatio...
Highly excited, or Rydberg, atoms can be made stationary with a combination of lasers and magnetic f...
We study highly excited hydrogen and alkali atoms ('Rydberg states') under the influence of a strong...
Abstract. This article presents recent experiments where cold atoms excited to Rydberg states intera...
Ultracold Rydberg atoms serve as good systems in which resonant dipole-dipole interactions can be ob...
Magnetic trapping is a well-established technique for ground state atoms. We seek to extend this con...
Over the last years, a new platform for quantum technologies has emerged. It is based on arrays of s...
On one side, atom-chip experiments have demonstrated to be a versatile tool to study quantum physics...