Single and double bosonic stimulation of THz emission in polaritonic systems

quantum simulations on square and triangular hubbard models

Maximizing the entanglement of two mixed qubits

The Big Picture - UMD WordPress blog

Electronic structure of quantum dots

Chapter 7 Quantum Error Correction

... this condition is readily understood | were it otherwise, in identifying an error subspace Ha we would acquire some information about the encoded state, and so would inevitably disturb that state. To prove that the condition eq. (7.19) is necessary and sucient, we invoke the theory of superoperator ...

here

Chapter 7 Quantum Error Correction

... this condition is readily understood — were it otherwise, in identifying an error subspace Ha we would acquire some information about the encoded state, and so would inevitably disturb that state. To prove that the condition eq. (7.19) is necessary and sufficient, we invoke the theory of superoperat ...

POLITesi - Politecnico di Milano

... mechanics; in particular superposition and entanglement by using a quantum magnitude as fundamental unit called qubit correspondent to classical bit. It has be proven that quantum computing could perform problems that seems intractable with a standard computer [1]. But managing quantum element contr ...

Adiabatic Circuits and Reversible Computing - UF CISE

Edward Wilson-Ewing, 23rd February 2015 [PDF 1.69MB]

Flat spin-wave dispersion in a triangular antiferromagnet Oleg A. Starykh,

PDF (Thesis)

Improve The Convergence of Jarzynski Equality through Fast

... concentrated work distribution for adiabatic process [13], we hope that adiabatic process would produce a better result. As the conventional adiabatic process takes a long time to accomplish, based on recent work on transitionless quantum driving [14], we accelerate the adiabatic process by adding a ...

The effects of disorder in strongly interacting quantum systems

... the importance of the non-ergodic e↵ects to the thermodynamics of the model and find evidence for an unusual glassy phase known as a Mott glass not previously thought to exist in this model. Finally, I use a mean-field numerical approach to simulate current generation quantum gas microscopes and dem ...

electron transport in quantum dots. - Leo Kouwenhoven

... quantum dots are small regions defined in a semiconductor material with a size of order 100 nm [1]. Since the first studies in the late eighties, the physics of quantum dots has been a very active and fruitful research topic. These dots have proven to be useful systems to study a wide range of physi ...

ABSTRACT Title of Document:

... mechanics. It does not bring new justification for being an instrumentalist, nor does it make it any more realist. So I spent some time analyzing why these approaches are not promising. But then the question becomes, what good does quantum information do us regarding the fundamentals? Is it simply ...

Green Function Techniques in the Treatment of Quantum Transport

... known. Quantum transport through noninteracting system can be considered using the famous Landauer-Büttiker method [85–94], which establishes the fundamental relation between the wave functions (scattering amplitudes) of a system and its conducting properties. The method can be applied to find the ...

Quantum Leap Gypsy Virtual Instrument Manual

... A round robin articulation is one in which several different samples are recorded with all parameters, such as volume, speed of attack, and so on, being essentially constant. The PLAY Engine then knows to alternate between the two or more samples during playback. The goal is to avoid what’s often ca ...

imaging single-electron charging in nanostructures by low

Quantum Transport in Finite Disordered Electron Systems

... In Part II an atomic-scale quantum point contact was studied with the intention to investigate the eﬀect of the attached leads on its conductance (i.e., the eﬀect of “measuring apparatus” on the “result of measurement”, in the sense of quantum measurement theory). The practical merit of this study i ...

Author`s personal copy

Sources of Photonic Entanglement for Applications in Space ICFO-INSTITUT DE CI `

... of quantum states are thus central issues for both experiments addressing the fundamental nature of the universe and the experimental realization of novel applications such as quantum-enhanced communication protocols. Quantum communication, or more generally quantum information processing, consists ...

abstract

... [4] Y. Matsumoto et al., Science 331, 316 (2011). [5] T. Tomita, K. Kuga, Y. Uwatoko, P. Coleman, and S. Nakatsuji, preprint (2015). ...

Niels Bohr as philosopher of experiment: Does

... focused on the use of classical concepts in any complementary description of the quantum object, in this paper we instead devote much of our attention to his contention that the experimental apparatus must be described in terms of the concepts of classical physics. Here the work of Kroes (1994, 2003 ...

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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.

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Quantum machine learning