Algorithms and Architectures for Quantum Computers
... computers, and after 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 physics. Our main approach is to develop highly integrated trapped ion systems, in which state ...
... computers, and after 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 physics. Our main approach is to develop highly integrated trapped ion systems, in which state ...
talk by Paul McGuirk
... Books (Paperback) [Very little about Quantum Computing per se, but provides an interesting comparison of the future prospects of the field in comparison to other forms of computing]. ...
... Books (Paperback) [Very little about Quantum Computing per se, but provides an interesting comparison of the future prospects of the field in comparison to other forms of computing]. ...
An Exploration of Powerful Power of Thought Experiences
... macro level of reality to achieve a desired result. While these could be defined as more classical forms, the type of power of thought I address in this paper is very different conceptually. By power of thought I refer to the purported ability to directly transform thought into an effect on temporal ...
... macro level of reality to achieve a desired result. While these could be defined as more classical forms, the type of power of thought I address in this paper is very different conceptually. By power of thought I refer to the purported ability to directly transform thought into an effect on temporal ...
The quantum Heisenberg group H(1)q
... The Hopf algebra H( 1) 4 just defined is clearly different from the algebra of the q-deformed creation and annihilation operators used in the Jordan-Schwinger map of SU (2) 4;4 as it has been shown in Ref. 5 the right quantum structure for these q-deformed operators is B( O( 1) 9. This fact is relat ...
... The Hopf algebra H( 1) 4 just defined is clearly different from the algebra of the q-deformed creation and annihilation operators used in the Jordan-Schwinger map of SU (2) 4;4 as it has been shown in Ref. 5 the right quantum structure for these q-deformed operators is B( O( 1) 9. This fact is relat ...
12 Quantum Electrodynamics
... In this chapter we want to couple electrons and photons with each other by an appropriate interaction and study the resulting interacting field theory, the famous quantum electrodynamics (QED). Since the coupling should not change the two physical degrees of freedom described by the four-component p ...
... In this chapter we want to couple electrons and photons with each other by an appropriate interaction and study the resulting interacting field theory, the famous quantum electrodynamics (QED). Since the coupling should not change the two physical degrees of freedom described by the four-component p ...
Towards quantum template matching
... Although at the end of step 6 the amplitude of |yi in the state vector is the ‘phase-only correlation’ at y, in step 7 we are only sampling the probability distribution. Although the probability of observing y = a is larger than the probability of observing any other y value, it is still relatively ...
... Although at the end of step 6 the amplitude of |yi in the state vector is the ‘phase-only correlation’ at y, in step 7 we are only sampling the probability distribution. Although the probability of observing y = a is larger than the probability of observing any other y value, it is still relatively ...
Holonomic Quantum Computation with Josephson Networks
... 1. Introduction The most common paradigm how to perform a quantum computation is to prepare the quantum register in some initial state and then to apply a well-defined sequence of one-qubit and two-qubit (or, in general, N-qubit) operations. These unitary operations – the so-called quantum gates – t ...
... 1. Introduction The most common paradigm how to perform a quantum computation is to prepare the quantum register in some initial state and then to apply a well-defined sequence of one-qubit and two-qubit (or, in general, N-qubit) operations. These unitary operations – the so-called quantum gates – t ...
... signal [11]. In other studies, it was shown that the scattering mechanisms with the combined effect of spin-orbit coupling and Zeeman effect (caused by a magnetic field parallel to the two-dimensional electron gas) can generate a rich class of crossovers between regimes of localization and anti-loca ...
CBO_Paper3_ConsciousnessandQuantumMechanics
... Furthermore, it is in conjunction with epiphenomenalism, which involves the principle that consciousness is the response to physical processes inside of the body. For example, if someone’s heart is beating fast, a person’s consciousness interprets this as fear. However, the problem with this princip ...
... Furthermore, it is in conjunction with epiphenomenalism, which involves the principle that consciousness is the response to physical processes inside of the body. For example, if someone’s heart is beating fast, a person’s consciousness interprets this as fear. However, the problem with this princip ...
Quantum criticality and dyonic black holes
... Talk online at http://sachdev.physics.harvard.edu ...
... Talk online at http://sachdev.physics.harvard.edu ...
