H
H. B. van Linden van den Heuvell
Researcher at University of Amsterdam
Publications - 67
Citations - 1524
H. B. van Linden van den Heuvell is an academic researcher from University of Amsterdam. The author has contributed to research in topics: Rydberg formula & Rydberg atom. The author has an hindex of 19, co-authored 67 publications receiving 1464 citations. Previous affiliations of H. B. van Linden van den Heuvell include Fundamental Research on Matter Institute for Atomic and Molecular Physics.
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Implementation of quantum search algorithm using classical Fourier optics.
TL;DR: An experiment on Grover's quantum search algorithm shows that classical waves can search a N-item database as efficiently as quantum mechanics can, although the lack of quantum entanglement limits the size of the database.
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Stability of standing matter waves in a trap
TL;DR: In this paper, the authors discuss excited Bose-condensed states and find the criterion of dynamical stability of a kinkwise state, i.e., a standing matter wave with one nodal plane perpendicular to the axis of a cylindrical trap.
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Spatially resolved observation of dipole-dipole interaction between Rydberg atoms.
C. S. E. van Ditzhuijzen,A. F. Koenderink,J. V. Hernández,Francis Robicheaux,L. D. Noordam,H. B. van Linden van den Heuvell +5 more
TL;DR: In this paper, the authors observed resonant energy transfer between cold Rydberg atoms in spatially separated cylinders and measured the production of the $49p$ state as a function of separation of the cylinders.
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Spatially resolved excitation of Rydberg atoms and surface effects on an atom chip
Atreju Tauschinsky,Rutger Thijssen,Shannon Whitlock,H. B. van Linden van den Heuvell,Robert J. C. Spreeuw +4 more
TL;DR: In this article, the authors demonstrate spatially resolved, coherent excitation of Rydberg atoms on an atom chip using Electromagnetically induced transparency (EIT) to investigate the properties of the atoms near the gold-coated chip surface.
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Experimental demonstration of light amplification without population inversion.
TL;DR: The observation of light amplification without population inversion is reported, where a linear superposition of an m=1 and an m=-1 magnetic substate is populated coherently and an inverse transition is used for amplification of light.