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Lüders Rule1 The Lüders rule describes a change - Philsci
Lüders Rule1 The Lüders rule describes a change - Philsci

ppt1 - Zettaflops
ppt1 - Zettaflops

... But chemists and physicists have long known that Information in microsopic bodies such as photons or nuclear spins obeys quantum laws. Such information - cannot be read or copied without disturbance. - can connect two spacelike separated observers by a correlation too strong to be explained by ...
Quantum parallelism
Quantum parallelism

Quantum Computing
Quantum Computing

Lecture 6 Quantum query complexity: Upper bound.
Lecture 6 Quantum query complexity: Upper bound.

What Could You Do With A Quantum Computer?
What Could You Do With A Quantum Computer?



Another version - Scott Aaronson
Another version - Scott Aaronson

Orbitals and Quantum Numbers
Orbitals and Quantum Numbers

... Principal Quantum Numbers http://www.angelo.edu/faculty/kboudrea/general/quantum_numbers/quantum_table1.gif ...
Quantum Computers and Cryptography
Quantum Computers and Cryptography

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Quantum algorithm

What is quantum communication?
What is quantum communication?

Bits and Qubits
Bits and Qubits

qm1 - Michael Nielsen
qm1 - Michael Nielsen

Lecture 3
Lecture 3

Quantum Electronics
Quantum Electronics

Quantum Optical Engineering
Quantum Optical Engineering

Optomechanics Experiments
Optomechanics Experiments

8.4.2 Quantum process tomography 8.5 Limitations of the quantum
8.4.2 Quantum process tomography 8.5 Limitations of the quantum

The Future of Computer Science
The Future of Computer Science

document
document

Presentation - Oxford Physics
Presentation - Oxford Physics

Measuring Quantum Yields of Powder Samples
Measuring Quantum Yields of Powder Samples

Quantum Information Technology
Quantum Information Technology

Quantum chaos: an introduction
Quantum chaos: an introduction

< 1 ... 33 34 35 36 37 38 39 40 41 ... 44 >

Quantum cognition

Quantum cognition is an emerging field which applies the mathematical formalism of quantum theory to model cognitive phenomena such as information processing by the human brain, decision making, human memory, concepts and conceptual reasoning, human judgment, and perception. The field clearly distinguishes itself from the quantum mind as it is not reliant on the hypothesis that there is something micro-physical quantum mechanical about the brain. Quantum cognition is based on the quantum-like paradigm or generalized quantum paradigm or quantum structure paradigm that information processing by complex systems such as the brain, taking into account contextual dependence of information and probabilistic reasoning, can be mathematically described in the framework of quantum information and quantum probability theory.Quantum cognition uses the mathematical formalism of quantum theory to inspire and formalize models of cognition that aim to be an advance over models based on traditional classical probability theory. The field focuses on modeling phenomena in cognitive science that have resisted traditional techniques or where traditional models seem to have reached a barrier (e.g., human memory ), and modeling preferences in decision theory that seem paradoxical from a traditional rational point of view (e.g., preference reversals ). Since the use of a quantum-theoretic framework is for modeling purposes, the identification of quantum structures in cognitive phenomena does not presuppose the existence of microscopic quantum processes in the human brain.
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