Preprint
... What does a trapped Bose-Einstein condensate look like? More precisely, how does it interact with light, and does this differ fundamentally from what one would naively expect from a similar collection of very cold atoms? In the early 1990s, before Bose-Einstein condensation was realized in atomic ga ...
... What does a trapped Bose-Einstein condensate look like? More precisely, how does it interact with light, and does this differ fundamentally from what one would naively expect from a similar collection of very cold atoms? In the early 1990s, before Bose-Einstein condensation was realized in atomic ga ...
From quantum foundations to quantum information protocols and back PhD thesis
... the completeness of quantum predictions in black box scenarios by benchmarking them against alternative models. Three main results and applications come ...
... the completeness of quantum predictions in black box scenarios by benchmarking them against alternative models. Three main results and applications come ...
Research Proposal for a Quantum Computer Programming
... certainty its future state. For example, if one throws a ball up into the air with a certain amount of force, one can predict how long it will take to fall back to Earth. In this view of the world things are completely deterministic- there is no randomness in the world. Taking this view further, if ...
... certainty its future state. For example, if one throws a ball up into the air with a certain amount of force, one can predict how long it will take to fall back to Earth. In this view of the world things are completely deterministic- there is no randomness in the world. Taking this view further, if ...
Quantum Computer (Information) and Quantum Mechanical
... great many degrees of freedom (such as a huge number of atomic movements) contribute to phenomena that we as human beings can perceive, this quantum mechanical behavior is normally hidden (not perceived-e(e)) by us. That it is not in the visible field; We cannot see it let alone decipher the progres ...
... great many degrees of freedom (such as a huge number of atomic movements) contribute to phenomena that we as human beings can perceive, this quantum mechanical behavior is normally hidden (not perceived-e(e)) by us. That it is not in the visible field; We cannot see it let alone decipher the progres ...
An attractive critical point from weak antilocalization on fractals
... point. By tuning the fractal dimensions to the optimal regime with β∞ ≈ −0.1, we have also observed this critical point using numerical simulations. Our findings are the first example of appearance of phases on fractals that cannot be observed in integer dimensions. While the main relevance of our w ...
... point. By tuning the fractal dimensions to the optimal regime with β∞ ≈ −0.1, we have also observed this critical point using numerical simulations. Our findings are the first example of appearance of phases on fractals that cannot be observed in integer dimensions. While the main relevance of our w ...
- Philsci-Archive
... Now let’s continue in more or less chronological order. It is only in retrospect, by meeting many people from universities over the world, that I recognize how much my own thinking is influenced by the education I received at the Radboud University Nijmegen. But in particular I want to mention Klaas ...
... Now let’s continue in more or less chronological order. It is only in retrospect, by meeting many people from universities over the world, that I recognize how much my own thinking is influenced by the education I received at the Radboud University Nijmegen. But in particular I want to mention Klaas ...
Quantum Measurement and Control
... as long as their supports on configuration space are not disjoint (that is, as long as they all assign a non-zero probability to at least one set of values for the system variables). This guarantees that there is at least one state of complete knowledge (that is, one configuration) that all observer ...
... as long as their supports on configuration space are not disjoint (that is, as long as they all assign a non-zero probability to at least one set of values for the system variables). This guarantees that there is at least one state of complete knowledge (that is, one configuration) that all observer ...
TK_LV_NExT
... 1. Spontaneous Lorentz symmetry breaking (SLSB) Every fundamental symmetry needs to be tested, including Lorentz symmetry. After the recognition of theoretical processes that create Lorentz violation, testing Lorentz invariance becomes very exciting Lorentz and CPT violation has been shown to occur ...
... 1. Spontaneous Lorentz symmetry breaking (SLSB) Every fundamental symmetry needs to be tested, including Lorentz symmetry. After the recognition of theoretical processes that create Lorentz violation, testing Lorentz invariance becomes very exciting Lorentz and CPT violation has been shown to occur ...
Lecture Notes for Physics 229: Quantum Information and Computation
... the universe is quantum mechanical. How does quantum theory shed light on the nature of information? It must have been clear already in the early days of quantum theory that classical ideas about information would need revision under the new physics. For example, the clicks registered in a detector ...
... the universe is quantum mechanical. How does quantum theory shed light on the nature of information? It must have been clear already in the early days of quantum theory that classical ideas about information would need revision under the new physics. For example, the clicks registered in a detector ...
Aims - Publikationsserver der Universität Regensburg
... The spectral sensitivity of the photoreceptors is determined by the absorption region of the active chromophores. Specially four classes of blue light photoreceptors have been identified, they are PYP, BLUF-proteins, phototropins, and cryptochromes. BLUF-proteins, phototropins, and cryptochromes are ...
... The spectral sensitivity of the photoreceptors is determined by the absorption region of the active chromophores. Specially four classes of blue light photoreceptors have been identified, they are PYP, BLUF-proteins, phototropins, and cryptochromes. BLUF-proteins, phototropins, and cryptochromes are ...
Alkali Rydberg States in Electromagnetic Fields
... time) was identified with the onset of classically chaotic motion. Both, quantum mechanical calculations [16, 17, 18] and experiments covering a broad range of microwave frequencies and principal quantum numbers of the atomic initial state [19] confirmed these predictions for driving frequencies bel ...
... time) was identified with the onset of classically chaotic motion. Both, quantum mechanical calculations [16, 17, 18] and experiments covering a broad range of microwave frequencies and principal quantum numbers of the atomic initial state [19] confirmed these predictions for driving frequencies bel ...