Add to ORKGOne of the key features of quantum mechanics is the interference of probability amplitudes. The reason for the appearance of interference is mathematically very simple. It is the linear structure of the Hilbert space which is used for the description of quantum systems. In terms of physics we usually talk about the superposition principle valid for individual and composed quantum objects. So, while the source of interference is understandable it leads in fact to many counter-intuitive physical phenomena which puzzle physicists for almost hundred years. The present thesis studies interference in two seemingly disjoint fields of physics. However, both have strong links to quantum information processing and hence are related. In the first part...
The purpose of this thesis is the theoretical study of interference and correlation effects in multi...
Quantum computers use the quantum interference of different computational paths to enhance correct o...
In a previous note, we argued that a quantum wavefunction W(x) is a relative conditional probability...
Abstract: In this paper we will discuss a recent double-slit experiment with quantum particles where...
Interference is very important in quantum mechanics, but it is apparently difficult to trace its phy...
Since its genesis, quantum mechanics has proved to be a very accurate model for predicting the behav...
This manuscript deals with a theoretical and experimental study of quantum effects taking place inth...
It is shown that the existence of waves associated with particles has not been demonstrated adequate...
In a previous note (1), we argued that quantum bound states may follow from a postulate regarding re...
In the experiments with large molecules, the diameter of particles has approached the width of the s...
This thesis is concerned with the notions of complementarity and uncertainty encountered in quantum ...
The purpose of this thesis is the theoretical study of interference and correlation effects in multi...
This work presents a general framework for quantum interference between processes that can involve d...
Bohmian mechanics, a hydrodynamic formulation of quantum mechanics, relies on the concept of traject...
The most widely-known formulation of the quantum eraser that used a variant of the double-slit exper...
The purpose of this thesis is the theoretical study of interference and correlation effects in multi...
Quantum computers use the quantum interference of different computational paths to enhance correct o...
In a previous note, we argued that a quantum wavefunction W(x) is a relative conditional probability...
Abstract: In this paper we will discuss a recent double-slit experiment with quantum particles where...
Interference is very important in quantum mechanics, but it is apparently difficult to trace its phy...
Since its genesis, quantum mechanics has proved to be a very accurate model for predicting the behav...
This manuscript deals with a theoretical and experimental study of quantum effects taking place inth...
It is shown that the existence of waves associated with particles has not been demonstrated adequate...
In a previous note (1), we argued that quantum bound states may follow from a postulate regarding re...
In the experiments with large molecules, the diameter of particles has approached the width of the s...
This thesis is concerned with the notions of complementarity and uncertainty encountered in quantum ...
The purpose of this thesis is the theoretical study of interference and correlation effects in multi...
This work presents a general framework for quantum interference between processes that can involve d...
Bohmian mechanics, a hydrodynamic formulation of quantum mechanics, relies on the concept of traject...
The most widely-known formulation of the quantum eraser that used a variant of the double-slit exper...
The purpose of this thesis is the theoretical study of interference and correlation effects in multi...
Quantum computers use the quantum interference of different computational paths to enhance correct o...
In a previous note, we argued that a quantum wavefunction W(x) is a relative conditional probability...