Fractional Fourier–Kravchuk transform
... harmonic oscillator wave functions—and it defines naturally a fractional Fourier transform along the waveguide, modeled as a finite harmonic oscillator. This transform acts on the position and momentum coordinates, which take a finite number of values, and transforms the Kravchuk wave functions into ...
... harmonic oscillator wave functions—and it defines naturally a fractional Fourier transform along the waveguide, modeled as a finite harmonic oscillator. This transform acts on the position and momentum coordinates, which take a finite number of values, and transforms the Kravchuk wave functions into ...
How long does it take until a quantum system
... principles of quantum mechanics and came up with various ideas to explain the apparent paradox or to modify Hawking’s calculations, e.g. [BSP84, tH90, CGHS92, Gid92]. But all of these approaches are either highly improbable or suffer from conceptual defects. There is an abundance of reviews on the c ...
... principles of quantum mechanics and came up with various ideas to explain the apparent paradox or to modify Hawking’s calculations, e.g. [BSP84, tH90, CGHS92, Gid92]. But all of these approaches are either highly improbable or suffer from conceptual defects. There is an abundance of reviews on the c ...
Integrable many-body systems of Calogero-Ruijsenaars type
... Having conserved quantities can simplify things, since it restricts the motion to the intersection of their level surfaces, selected by the initial conditions. Thus one should aim at finding as many independent Poisson commuting functions as possible. By independence we mean that at generic points (o ...
... Having conserved quantities can simplify things, since it restricts the motion to the intersection of their level surfaces, selected by the initial conditions. Thus one should aim at finding as many independent Poisson commuting functions as possible. By independence we mean that at generic points (o ...
Threshold Collision-Induced Dissociation Determination and
... The binding energies at 0 K of sodium and silver ions to ammonia, methylamine, ethylamine, acetonitrile, and benzonitrile were determined using threshold collision-induced dissociation (CID) and molecular orbital calculations at the ab initio and density functional theory levels. There is good agree ...
... The binding energies at 0 K of sodium and silver ions to ammonia, methylamine, ethylamine, acetonitrile, and benzonitrile were determined using threshold collision-induced dissociation (CID) and molecular orbital calculations at the ab initio and density functional theory levels. There is good agree ...
QUANTUM COMPUTING: AN OVERVIEW
... Quantum computing and quantum information processing are emerging disciplines in which the principles of quantum physics are employed to store and process information. We use the classical digital technology at almost every moment in our lives: computers, mobile phones, mp3 players, just to name a f ...
... Quantum computing and quantum information processing are emerging disciplines in which the principles of quantum physics are employed to store and process information. We use the classical digital technology at almost every moment in our lives: computers, mobile phones, mp3 players, just to name a f ...
Thesis-KM-oct11
... analysing data entailing the simultaneous collection of REMPI mass and frequency data over a certain mass area and frequency range into a single data matrix. This data matrix can be turned into a detailed 2D map of the measured area using commercial software such as Igor Pro and Labview which enable ...
... analysing data entailing the simultaneous collection of REMPI mass and frequency data over a certain mass area and frequency range into a single data matrix. This data matrix can be turned into a detailed 2D map of the measured area using commercial software such as Igor Pro and Labview which enable ...
Engineering a Robust Quantum Spin Hall State in Graphene via
... global topology—and not on local details, such as disorder—then the system is said to realize a topological phase. By virtue of their universality, rooted in this independence of microscopic details, topological phases are both paradigmatically interesting and thought to possess seeds of important f ...
... global topology—and not on local details, such as disorder—then the system is said to realize a topological phase. By virtue of their universality, rooted in this independence of microscopic details, topological phases are both paradigmatically interesting and thought to possess seeds of important f ...