Examples of 'quantum systems' in a sentence
Meaning of "quantum systems"
This phrase refers to systems or phenomena that follow the principles of quantum mechanics. Quantum systems are characterized by the superposition and entanglement of states, allowing for the potential of performing complex calculations and tasks
How to use "quantum systems" in a sentence
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quantum systems
Time dependent quantum systems are very complicated.
Theoretical description and understanding of quantum systems.
Manipulation of quantum systems with trapped ions.
His reasoning applies to all quantum systems.
This applies to quantum systems in particular.
Superradiance and transport in open quantum systems.
From the control of quantum systems to multiqubit logic.
Algorithmic cooling applies to quantum systems.
Open quantum systems and decoherence.
Theory and control of open quantum systems.
Three quantum systems are involved.
The theory of open quantum systems.
Idea that quantum systems possess properties only when.
This is the subject of theory of open quantum systems.
But in quantum systems it does happen.
See also
Work statistics in open quantum systems.
One way to connect quantum systems is via electromagnetic radiation or light.
Virtual particles are manifestations of a basic property of quantum systems.
The general study of chaotic quantum systems is known as quantum chaos.
Entanglement is a statistical property of quantum systems.
The overall study of chaotic quantum systems is called quantum chaos.
This has been extended to much larger classes of quantum systems.
Quantum systems in space.
It is a fundamental property of quantum systems.
Quantum systems can become entangled through various types of interactions.
A memory is attributed to quantum systems.
An essential part of large quantum systems is the communication between distant computational units.
One must reason as if it were a collision between three quantum systems.
We study in this thesis composite quantum systems under the in uence of external environments.
A separation principle also exists for the control of quantum systems.
Quantum biomimetics consists of reproducing in quantum systems certain properties exclusive to living organisms.
The concept of controlability is then presented in the context of quantum systems.
These quantum systems prepared in a witness state will also be referred to as qubits below.
This is one of the most difficult aspects of quantum systems to understand.
Quantum systems do not have objective properties which can be defined independently of measurement context.
Such an approach allows to describe decoherence in perturbed entangled quantum systems.
The influence of screw dislocations in quantum systems has received considerable attention in recent years.
The system processed two algorithms written specially for quantum systems.
One application might high precision measurements of quantum systems which are often affected by disturbance.
The second problem concerns the calculation of entanglement in unidimensional quantum systems.
The control of quantum systems shows increasing scientific interest and promises powerful applications and technologies.
The field is driven by an unprecedented level of experimental control of isolated quantum systems.
Quantum Chaology is the study of quantum systems whose classical dynamics are chaotic.
His research concerns theoretical aspects of the dynamics of large quantum systems.
A MATHEMATICAL technique for studying disorder in quantum systems could improve internet keyword searches.
Entanglement is also the difficulty behind making computer simulations of quantum systems.
Quantum systems may be measured by applying a series of yes - no questions.
Mistrustful quantum cryptography studies the area of mistrustful cryptography using quantum systems.
We have developed a protocol that allows us to merge quantum systems that are encoded differently.
A fundamental question is whether and how Anderson transitions survive in interacting quantum systems.
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