Talk(3.1)
... • The laws of physics dictate the capabilities of any information processing device. • Designs of “classical” computers are implicitly based in the classical framework for physics • Classical physics is known to be wrong or incomplete… and has been replaced by a more powerful framework: quantum mech ...
... • The laws of physics dictate the capabilities of any information processing device. • Designs of “classical” computers are implicitly based in the classical framework for physics • Classical physics is known to be wrong or incomplete… and has been replaced by a more powerful framework: quantum mech ...
Relation between the field quadratures and the characteristic
... to produce non-classical states of both, the mirror and field states [1]. The possibilities to generate non-classical states, and in particular a superposition of coherent states of the quantized field are because of the Kerr like Hamiltonians that may be obtained in these systems [1]. Indeed, it wa ...
... to produce non-classical states of both, the mirror and field states [1]. The possibilities to generate non-classical states, and in particular a superposition of coherent states of the quantized field are because of the Kerr like Hamiltonians that may be obtained in these systems [1]. Indeed, it wa ...
Quantum Theory of Hydrogen
... There are “zillions” of web sites about the hydrogen atom. Every physics teacher who does anything relating to modern physics and puts class material on the web seems to do the hydrogen atom. A search using Google for “hydrogen atom schrodinger equation” (but don’t put the words in quotes when you ...
... There are “zillions” of web sites about the hydrogen atom. Every physics teacher who does anything relating to modern physics and puts class material on the web seems to do the hydrogen atom. A search using Google for “hydrogen atom schrodinger equation” (but don’t put the words in quotes when you ...
Quantum Fourier Transform for Shor algorithm. PPT format.
... to another vector of complex numbers 2. This is a one-to-one mapping, so inverse transform exists 3. This is not the same condition as in standard Fourier Transform where we transform binary vectors to binary vectors ...
... to another vector of complex numbers 2. This is a one-to-one mapping, so inverse transform exists 3. This is not the same condition as in standard Fourier Transform where we transform binary vectors to binary vectors ...
A linear chain of interacting harmonic oscillators: solutions as a
... In order to study physical properties of the systems, one has to work with specific unitary irreducible representations of gl(1|n). These unitary representations W = W ([m]n+1 ) of gl(1|n) are well known [16]: they are labeled by some (n + 1)-tuple [m]n+1 subject to certain conditions. Even more: fo ...
... In order to study physical properties of the systems, one has to work with specific unitary irreducible representations of gl(1|n). These unitary representations W = W ([m]n+1 ) of gl(1|n) are well known [16]: they are labeled by some (n + 1)-tuple [m]n+1 subject to certain conditions. Even more: fo ...
Landau Levels and Quantum Group
... expect a new approach to the quantized Hall effect utilizing the representation theory of the quantum groups. Let us review some basic facts about non-interacting charged particle (charge e and mass m) in a constant magnetic field B perpendicular to the x-y plane [7]. It is useful to adopt the follo ...
... expect a new approach to the quantized Hall effect utilizing the representation theory of the quantum groups. Let us review some basic facts about non-interacting charged particle (charge e and mass m) in a constant magnetic field B perpendicular to the x-y plane [7]. It is useful to adopt the follo ...
ppt
... Quantum Automatic Repeat Request (ARQ) Protocol Fidelity of Quantum ARQ Protocol • Quantum Codes of Finite Lengths • The asymptotical Case (the code length ...
... Quantum Automatic Repeat Request (ARQ) Protocol Fidelity of Quantum ARQ Protocol • Quantum Codes of Finite Lengths • The asymptotical Case (the code length ...
Lecture 9 1 Measurement and expectation values
... So, to understand behavior of electron’s intrinsic magnetic moment ~µ (which is an observable we can measure) then we must understand the behavior of its intrinsic angular momentum = ~S. This is why spin is important. Since the electron is small, ~S must be described by QM. To understand spin = ~S w ...
... So, to understand behavior of electron’s intrinsic magnetic moment ~µ (which is an observable we can measure) then we must understand the behavior of its intrinsic angular momentum = ~S. This is why spin is important. Since the electron is small, ~S must be described by QM. To understand spin = ~S w ...
