1_Quantum theory_ introduction and principles
... The sun has a number of holes in its corona from which high energy particles (e-, p+, n0) stream out with enormous velocity. These particles are thrown out through our solar system, and the phenomenon is called solar wind. A part of this solar wind meets the earth’s magneto sphere, the solar wind pa ...
... The sun has a number of holes in its corona from which high energy particles (e-, p+, n0) stream out with enormous velocity. These particles are thrown out through our solar system, and the phenomenon is called solar wind. A part of this solar wind meets the earth’s magneto sphere, the solar wind pa ...
PH5015 - Applications of Quantum Physics
... Signatures of BEC and Fermi gases. Matter wave interference. Wave-particle duality studies. Charged ion trapping. Studies of laser cooled ions in traps. Quantum jumps. Atom lasers. The second half of the course explores the statistics of light: coherence. First and second order correlation functions ...
... Signatures of BEC and Fermi gases. Matter wave interference. Wave-particle duality studies. Charged ion trapping. Studies of laser cooled ions in traps. Quantum jumps. Atom lasers. The second half of the course explores the statistics of light: coherence. First and second order correlation functions ...
Exponential complexity and ontological theories of quantum
... Given an ontological Markovian theory of a Ndimensional quantum system, the corresponding ontological space dimension can not be smaller than 2N-2. Consequence: the ontic space dimension grows exponential with the physical size. The prize paid for the solution of the sign problem is the exponential ...
... Given an ontological Markovian theory of a Ndimensional quantum system, the corresponding ontological space dimension can not be smaller than 2N-2. Consequence: the ontic space dimension grows exponential with the physical size. The prize paid for the solution of the sign problem is the exponential ...
Derivation of the Pauli Exclusion Principle
... In generally, the Pauli Exclusion Principle follows from the spectroscopy whereas its origin is not good understood. To understand fully this principle, most important is origin of quantization of the azimuthal quantum number i.e. the angular momentum quantum number. Here, on the base of the theory ...
... In generally, the Pauli Exclusion Principle follows from the spectroscopy whereas its origin is not good understood. To understand fully this principle, most important is origin of quantization of the azimuthal quantum number i.e. the angular momentum quantum number. Here, on the base of the theory ...
Quantum Theory 1 - Class Exercise 4
... Quantum Theory 1 - Class Exercise 4 1. Consider a Hamiltonian which describes a one dimensional system of two particles of masses m1 and m2 moving in a potential that depends only on the distance between them. Ĥ = ...
... Quantum Theory 1 - Class Exercise 4 1. Consider a Hamiltonian which describes a one dimensional system of two particles of masses m1 and m2 moving in a potential that depends only on the distance between them. Ĥ = ...
The Zeeman Effect
... The same expressions, but with ml and ms replaced by ML and MS, apply to the combined magnetic moments of several coupled electrons. When an atom has L≠0 and S≠0, these net magnetic moments are simply additive. Spin-orbit coupling (itself a magnetic effect) is usually large enough that the total ele ...
... The same expressions, but with ml and ms replaced by ML and MS, apply to the combined magnetic moments of several coupled electrons. When an atom has L≠0 and S≠0, these net magnetic moments are simply additive. Spin-orbit coupling (itself a magnetic effect) is usually large enough that the total ele ...
PH4038 - Lagrangian and Hamiltonian Dynamics
... This module is typically taken in JH by theoretical physicists, and in SH by those doing an MPhys in other degree programmes in the School. It is sufficiently core to the programmes that it is included in the summary of deadlines etc on the School’s Students and Staff web pages. Five tutorial sheets ...
... This module is typically taken in JH by theoretical physicists, and in SH by those doing an MPhys in other degree programmes in the School. It is sufficiently core to the programmes that it is included in the summary of deadlines etc on the School’s Students and Staff web pages. Five tutorial sheets ...
Lecture 1
... particle cannot be measured simultaneously with absolute precision: the uncertainties Δx and Δp in these measurements satisfy the following relation (Heisenberg’s uncertainty relation): ...
... particle cannot be measured simultaneously with absolute precision: the uncertainties Δx and Δp in these measurements satisfy the following relation (Heisenberg’s uncertainty relation): ...
III. Quantum Model of the Atom
... defines probability of finding an eTake it easy, do not get shocked, we will cover this in Chemy 333, if you are a chemistry major student ...
... defines probability of finding an eTake it easy, do not get shocked, we will cover this in Chemy 333, if you are a chemistry major student ...
Statistical description of systems of particles
... Microscopic state of the system Quantum mechanics: enumerate the set of f quantum numbers of the system and assign a label to identify each of them. Example: for a system of NA spin-particles (fixed in position) a microscopic state is the set of the f= NA projections of the angular moment of the si ...
... Microscopic state of the system Quantum mechanics: enumerate the set of f quantum numbers of the system and assign a label to identify each of them. Example: for a system of NA spin-particles (fixed in position) a microscopic state is the set of the f= NA projections of the angular moment of the si ...
slides - p-ADICS.2015
... At this stage, the Universe was in a quantum state, which should be described by a wave function (complex valued and depends on some real parameters). But, QC is related to Planck scale phenomena - it is natural to reconsider its foundations. We maintain here the standard point of view that the wave ...
... At this stage, the Universe was in a quantum state, which should be described by a wave function (complex valued and depends on some real parameters). But, QC is related to Planck scale phenomena - it is natural to reconsider its foundations. We maintain here the standard point of view that the wave ...
Quantum Theory – Consciousness
... Einstein pursued this goal for the rest of his life, between 1935 and 1955, and even after his death the problem seemed worth the effort of many persons, mainly theorists and philosophers. But finally, Bell's theorem, published in 1964, proved once and for all that the problem could be decided by ex ...
... Einstein pursued this goal for the rest of his life, between 1935 and 1955, and even after his death the problem seemed worth the effort of many persons, mainly theorists and philosophers. But finally, Bell's theorem, published in 1964, proved once and for all that the problem could be decided by ex ...
Slides - Agenda INFN
... indication of this is found in the fact that no one is able to attain the truth adequately, while, on the other hand, no one fails entirely, but every one says something true about the nature of things, and while individually they contribute little or nothing to the truth, by the union of all a cons ...
... indication of this is found in the fact that no one is able to attain the truth adequately, while, on the other hand, no one fails entirely, but every one says something true about the nature of things, and while individually they contribute little or nothing to the truth, by the union of all a cons ...
Heisenberg uncertainty principle
... poison is then subject to the probabilistic decay of a radioactive isotope. If the isotope decays, the poison is released. If no decay occurs, the poison is not released. The result is that the cat is in a superposition of states between being dead, and being alive. This is very unintuitive. ...
... poison is then subject to the probabilistic decay of a radioactive isotope. If the isotope decays, the poison is released. If no decay occurs, the poison is not released. The result is that the cat is in a superposition of states between being dead, and being alive. This is very unintuitive. ...
