non-born–oppenheimer effects between electrons and protons
non-born–oppenheimer effects between electrons and protons

... design to the design of more effective catalysts for solar energy devices. ...
Quantum Turing Test
Quantum Turing Test

QMA = PP implies that PP contains PH
QMA = PP implies that PP contains PH

Annual Report 2003-2004 The Institute for Quantum Engineering, Science, and Technology
Annual Report 2003-2004 The Institute for Quantum Engineering, Science, and Technology

... This award proposes a multidisciplinary, multi-university research program that draws on leading experts and unique research facilities from across the nation, and which has as its organizing theme the study, understanding and control, at the nanoscale, of the spin properties of electronic systems o ...
Dissipative decoherence in the Grover algorithm
Dissipative decoherence in the Grover algorithm

Chapter 1 - Inphinity
Chapter 1 - Inphinity

... argued on the idea of synchronicity as a force allowing for the idea of indeterminacy. Scientists such as Heisenberg and Planck developed an idea of physics based on an indeterminate reality. This has led to the sophistication of quantum theory in physics, which dictates that in the world of the ext ...
pdf - at www.arxiv.org.
pdf - at www.arxiv.org.

On the role of entanglement in quantum information
On the role of entanglement in quantum information

Realisation of a programmable two-qubit quantum processor
Realisation of a programmable two-qubit quantum processor

Lecture XVII
Lecture XVII

... maximum in probability at x = 0. Contrast bahaviour with the classic harmonic oscillator, which has a minimum in the probability at x = 0 and maxima at turning points. ...
research statement in pdf
research statement in pdf

Machine Learning
Machine Learning

R4-24
R4-24

... Lattice QCD : Q-Q static potential (G. Bali, Phys. Rep. 343 (2001) 1) Quenched approximation (valence quarks) ...
Conceptual Issues in Canonical Quantum Gravity and Cosmology
Conceptual Issues in Canonical Quantum Gravity and Cosmology

Quantum Error-Correction Codes on Abelian Groups
Quantum Error-Correction Codes on Abelian Groups

... a state of the form |t, where t ∈ G (bit has a similar meaning). Also let us remind that the standard basis of H is {|t : t ∈ G}. So for the given finite abelian group G, we have the following protocol. QKD protocol: CSSG codes 1: Alice creates n random check bits, a random m bit key k, and two ran ...
The CNOT Quantum Gate
The CNOT Quantum Gate

... In quantum computation we perform unitary operations on arrays of qubits [6]. These operations are referred to as gates. When we set out to build a quantum computer we are actually aiming at building the qubits, the elements holding information using physical properties, and the gates. That is, find ...
Aharonov-Bohm-type quantum interference effects in narrow gap
Aharonov-Bohm-type quantum interference effects in narrow gap

Department of Electronics and Communications Engineering
Department of Electronics and Communications Engineering

... This is an introductory course to quantum mechanics physics and aims to cover general formulation of quantum mechanics. This course aims in giving the students clear idea on state vectors and quantum states, difference between classical and quantum pictures of waves and particles, uncertainty princi ...
QUANTUM DARWINISM, CLASSICAL REALITY, and the
QUANTUM DARWINISM, CLASSICAL REALITY, and the

... Postulates 0?2 guide calculations involving ingredients such as Hamiltonians. But such manipulations are just quantum math. To do physics, the math must be related to experiments. The repeatability postulate, postulate 3, starts the task. It says that an immediately repeated measurement yields the s ...
Quantum phase transitions in atomic gases and
Quantum phase transitions in atomic gases and

***** 1
***** 1

周正威
周正威

Non-classical computing - Mathematical and Computer Sciences
Non-classical computing - Mathematical and Computer Sciences

... available to the computational system. In this context, an elementary operation is one which moves a system from one quantum state to an orthogonal one (for example flipping a qubit). The so-called MargolusLevetin Theorem is derived by appealing to the energytime uncertainty relation and shows that ...
Heisenberg, Matrix Mechanics, and the Uncertainty Principle 4
Heisenberg, Matrix Mechanics, and the Uncertainty Principle 4

Quantum physics and wave optics as geometric phases
Quantum physics and wave optics as geometric phases

Quantum machine learning

Quantum machine learning is a newly emerging interdisciplinary research area between quantum physics and computer science that summarises efforts to combine quantum mechanics with methods of machine learning. Quantum machine learning models or algorithms intend to use the advantages of quantum information in order to improve classical methods of machine learning, for example by developing efficient implementations of expensive classical algorithms on a quantum computer. However, quantum machine learning also includes the vice versa approach, namely applying classical methods of machine learning to quantum information theory.Although yet in its infancy, quantum machine learning is met with high expectations of providing a solution for big data analysis using the ‘parallel’ power of quantum computation. This trend is underlined by recent investments of companies such as Google and Microsoft into quantum computing hardware and research. However, quantum machine learning is still in its infancy and requires more theoretical foundations as well as solid scientific results in order to mature to a full academic discipline.