Lecture 1, Introduction
... learning of the Dirac equation, said, "Physics as we know it will be over in six months." 1930 Pauli suggests the neutrino to explain the continuous electron spectrum for b-decay. 1931 Dirac realizes that the positively-charged particles required by his equation are new objects (he calls them "posit ...
... learning of the Dirac equation, said, "Physics as we know it will be over in six months." 1930 Pauli suggests the neutrino to explain the continuous electron spectrum for b-decay. 1931 Dirac realizes that the positively-charged particles required by his equation are new objects (he calls them "posit ...
Algorithms and Architectures for Quantum Computers—I. Chuang
... computer over the next few decades. Based on our successes with realizing small quantum computers, and after three years of testing, modeling, and planning, we have come to understand how this can be achieved by combining fault tolerance techniques developed by von Neumann, with methods from atomic ...
... computer over the next few decades. Based on our successes with realizing small quantum computers, and after three years of testing, modeling, and planning, we have come to understand how this can be achieved by combining fault tolerance techniques developed by von Neumann, with methods from atomic ...
Document
... Coupling constants have an energy dependence due to (higher order) virtual interactions. These change the measured value of the coupling constant and make it depend on the energy scale at which it is measured (logarithmic dependence). The strong and weak couplings decrease with energy whilst the EM ...
... Coupling constants have an energy dependence due to (higher order) virtual interactions. These change the measured value of the coupling constant and make it depend on the energy scale at which it is measured (logarithmic dependence). The strong and weak couplings decrease with energy whilst the EM ...
Quantum Electronics
... What is the basic idea behind most if not all Quantum Technology? Quantum technology is the application of the area of physics called quantum mechanics or Quantum Theory to solve useful problems for us. The ideas behind quantum theory have their roots in the early work of Albert Einstein 100 years ...
... What is the basic idea behind most if not all Quantum Technology? Quantum technology is the application of the area of physics called quantum mechanics or Quantum Theory to solve useful problems for us. The ideas behind quantum theory have their roots in the early work of Albert Einstein 100 years ...
We live in the quantum 4-dimensional Minkowski space-time
... quarks, and many other elementary particles in the subatomic world. The presentation on the Klein-Gordon equation could be simple since it has the same symmetry as the background, i.e., the 4-dimensional Minkowski space-time. It describes spinless particles such as the Higgs particles, for which the ...
... quarks, and many other elementary particles in the subatomic world. The presentation on the Klein-Gordon equation could be simple since it has the same symmetry as the background, i.e., the 4-dimensional Minkowski space-time. It describes spinless particles such as the Higgs particles, for which the ...
Neitzke: What is a BPS state?
... The quantum theories we want to understand are describing phenomena which take place in Minkowski space E3,1 . Among other things, such a theory is supposed to have an associated Hilbert space H, whose vectors represent the possible “states” of the system. One simple example of a quantum theory whic ...
... The quantum theories we want to understand are describing phenomena which take place in Minkowski space E3,1 . Among other things, such a theory is supposed to have an associated Hilbert space H, whose vectors represent the possible “states” of the system. One simple example of a quantum theory whic ...
Word - UNSW Newsroom
... The other key area where they will be much faster than classical computers is for cracking most forms of modern encryption. There are also some possible applications that will only be realised once these things are up and running – can you speculate on what some of ...
... The other key area where they will be much faster than classical computers is for cracking most forms of modern encryption. There are also some possible applications that will only be realised once these things are up and running – can you speculate on what some of ...
Electromagnetic Preons as Particles of Everything
... equation coincided with the measured speed of light, Maxwell concluded that light itself is an EM wave. In the quantum theory EMR consists of photons, the elementary particles responsible for all electromagnetic interactions. Photons are massless, but they are affected by gravity. Sources of EMR: a) ...
... equation coincided with the measured speed of light, Maxwell concluded that light itself is an EM wave. In the quantum theory EMR consists of photons, the elementary particles responsible for all electromagnetic interactions. Photons are massless, but they are affected by gravity. Sources of EMR: a) ...