Word - UNSW Newsroom
... AM: you can think of this result as the “quantum equivalent” of having built the first transistor. It’s not a computer yet, but it’s the landmark that allows you to confidently think you will one day build a computer with it. What is the next step toward developing a quantum computer, and what stil ...
... AM: you can think of this result as the “quantum equivalent” of having built the first transistor. It’s not a computer yet, but it’s the landmark that allows you to confidently think you will one day build a computer with it. What is the next step toward developing a quantum computer, and what stil ...
photon may be totally absorbed by electron, but not have enough
... momentum of a particle. He proposed that only those orbits where the wave would be a circular standing wave will occur. This yields the same relation that Bohr had proposed. In addition, it makes more reasonable the fact that the electrons do not radiate, as one would otherwise expect from an accele ...
... momentum of a particle. He proposed that only those orbits where the wave would be a circular standing wave will occur. This yields the same relation that Bohr had proposed. In addition, it makes more reasonable the fact that the electrons do not radiate, as one would otherwise expect from an accele ...
QM_2_particles_ver2
... lines due to magnetic fields, shows us sunspots have BIG magnetic fields ...
... lines due to magnetic fields, shows us sunspots have BIG magnetic fields ...
The Quantum Mechanical Picture of the Atom
... and molecules can be described by sets of numbers called quantum numbers ...
... and molecules can be described by sets of numbers called quantum numbers ...
Quantum Mechanics I. Introduction Just before 1900, the classical
... Quantum Mechanics I. Introduction Just before 1900, the classical physics of Newton and Maxwell was unable to explain certain phenomena. The result was a major revolution in physics, the development of quantum mechanics. We no longer see the world as precisely definable, but there is an inherent unc ...
... Quantum Mechanics I. Introduction Just before 1900, the classical physics of Newton and Maxwell was unable to explain certain phenomena. The result was a major revolution in physics, the development of quantum mechanics. We no longer see the world as precisely definable, but there is an inherent unc ...
The Future of Computer Science
... Intuition: If Range(f) and Range(g) are disjoint, then the H register decoheres all entanglement between R and B, leaving only classical correlation If, on the other hand, Range(f)=Range(g), then there’s some permutation of the |x,1R states that puts the last qubit of R into an EPR pair with B Thus ...
... Intuition: If Range(f) and Range(g) are disjoint, then the H register decoheres all entanglement between R and B, leaving only classical correlation If, on the other hand, Range(f)=Range(g), then there’s some permutation of the |x,1R states that puts the last qubit of R into an EPR pair with B Thus ...