Non-linear gates enabling universal quantum computation
... gates deterministically and probabilistically. To this aim, the project will focus on emerging quantum technologies that embody nonlinear oscillators whose quantum states can act as a non-linear gate enabler [4]. In particular, non-linear quantum oscillators — such as in cavity opto-mechanics [3] as ...
... gates deterministically and probabilistically. To this aim, the project will focus on emerging quantum technologies that embody nonlinear oscillators whose quantum states can act as a non-linear gate enabler [4]. In particular, non-linear quantum oscillators — such as in cavity opto-mechanics [3] as ...
Introduction to Nanoelectronics Marc Baldo MIT OpenCourseWare Publication May 2011
... About eight years ago, when I was just starting at MIT, I had the opportunity to attend a workshop on nanoscale devices and molecular electronics. In particular, I remember a presentation by Supriyo Datta from Purdue. He was describing electronic devices from the „bottom up‟ – starting with quantum ...
... About eight years ago, when I was just starting at MIT, I had the opportunity to attend a workshop on nanoscale devices and molecular electronics. In particular, I remember a presentation by Supriyo Datta from Purdue. He was describing electronic devices from the „bottom up‟ – starting with quantum ...
The Emergence of Quantum Mechanics
... This may seem to be a severe restriction, but, first, one can argue that 2π~/∆t here is the Planck energy, and in practice, when we do quantum mechanics, we only look at energies, or rather energy differences, that indeed are much smaller than the Planck energy. Does this mean that transitions with ...
... This may seem to be a severe restriction, but, first, one can argue that 2π~/∆t here is the Planck energy, and in practice, when we do quantum mechanics, we only look at energies, or rather energy differences, that indeed are much smaller than the Planck energy. Does this mean that transitions with ...
Course Syllabus and Assignment 1
... 4. For the square well in the previous problem, compute the value of the phase shift δ(E) at E = 0. Plot the radial function φ(r) vs r for 0 < r < 6 a. u. 5. Write down an expression for the normaiized ground state wave function φ(r) of a hydrogenic ion with nuclear charge Z. Verify by direct substi ...
... 4. For the square well in the previous problem, compute the value of the phase shift δ(E) at E = 0. Plot the radial function φ(r) vs r for 0 < r < 6 a. u. 5. Write down an expression for the normaiized ground state wave function φ(r) of a hydrogenic ion with nuclear charge Z. Verify by direct substi ...
4.1. INTERACTION OF LIGHT WITH MATTER
... 4.1. INTERACTION OF LIGHT WITH MATTER One of the most important topics in time-dependent quantum mechanics for chemists is the description of spectroscopy, which refers to the study of matter through its interaction with light fields (electromagnetic radiation). Classically, light-matter interaction ...
... 4.1. INTERACTION OF LIGHT WITH MATTER One of the most important topics in time-dependent quantum mechanics for chemists is the description of spectroscopy, which refers to the study of matter through its interaction with light fields (electromagnetic radiation). Classically, light-matter interaction ...
Titles and Abstracts
... Title: Groups or Semi-groups for the Dynamical Equations of Quantum Theory Abstract: Experiments on quantum systems are usually divided into preparation of a state and registration of an observables in that state. The traditional mathematical methods of quantum theory (Hilbert space or Schwartz spac ...
... Title: Groups or Semi-groups for the Dynamical Equations of Quantum Theory Abstract: Experiments on quantum systems are usually divided into preparation of a state and registration of an observables in that state. The traditional mathematical methods of quantum theory (Hilbert space or Schwartz spac ...
Quantum Computing
... If you throw away the problem structure, and just consider an abstract “landscape” of 2n possible solutions, then even a quantum computer needs ~2n/2 steps to find the correct one (That bound is actually achievable, using Grover’s algorithm!) ...
... If you throw away the problem structure, and just consider an abstract “landscape” of 2n possible solutions, then even a quantum computer needs ~2n/2 steps to find the correct one (That bound is actually achievable, using Grover’s algorithm!) ...
Quantum Mechanics
... The first clue in the development of quantum theory came with the discovery of the de Broglie relation. – In 1923, Louis de Broglie reasoned that if light exhibits particle aspects, perhaps particles of matter show characteristics of waves. – He postulated that a particle with mass m and a velocity ...
... The first clue in the development of quantum theory came with the discovery of the de Broglie relation. – In 1923, Louis de Broglie reasoned that if light exhibits particle aspects, perhaps particles of matter show characteristics of waves. – He postulated that a particle with mass m and a velocity ...
Quantum Gravity www.AssignmentPoint.com Quantum gravity (QG
... attract each other and adding together all of the interactions results in many infinite values which cannot easily be cancelled out mathematically to yield sensible, finite results. This is in contrast with quantum electrodynamics where, given that the series still do not converge, the interactions ...
... attract each other and adding together all of the interactions results in many infinite values which cannot easily be cancelled out mathematically to yield sensible, finite results. This is in contrast with quantum electrodynamics where, given that the series still do not converge, the interactions ...
slides
... MP is Here to Stay • Quantum field theory employs superpositions among distinct macroscopic states • Theories on the horizon do too, e.g., superstring theory, loop theory, etc. • So MP has to be solved ...
... MP is Here to Stay • Quantum field theory employs superpositions among distinct macroscopic states • Theories on the horizon do too, e.g., superstring theory, loop theory, etc. • So MP has to be solved ...
