Projects per year
Abstract
To study which are the most general causal structures which are compatible with local quantum mechanics, Oreshkov et al.
[1] introduced the notion of a process: a resource shared between some parties that allows for quantum communication between them without a predetermined causal order. These processes can be used to perform several tasks that are impossible in standard quantum mechanics: they allow for the violation of causal inequalities, and provide an advantage for computational and communication complexity. Nonetheless, no process that can be used to violate a causal inequality is known to be physically implementable. There is therefore considerable interest in determining which processes are physical and which are just mathematical artefacts of the framework. Here we make key progress in this direction by proposing a purification postulate: processes are physical only if they are purifiable. We derive necessary conditions for a process to be purifiable, and show that several known processes do not satisfy them.
Featured image: A process Wwithout past and future is purifiable iff it can be recovered from a pure process Sby inputting the state 0⟩in the past P
and tracing out the future F. If reversibility is respected in nature, only purifiable processes are physical.
[1] introduced the notion of a process: a resource shared between some parties that allows for quantum communication between them without a predetermined causal order. These processes can be used to perform several tasks that are impossible in standard quantum mechanics: they allow for the violation of causal inequalities, and provide an advantage for computational and communication complexity. Nonetheless, no process that can be used to violate a causal inequality is known to be physically implementable. There is therefore considerable interest in determining which processes are physical and which are just mathematical artefacts of the framework. Here we make key progress in this direction by proposing a purification postulate: processes are physical only if they are purifiable. We derive necessary conditions for a process to be purifiable, and show that several known processes do not satisfy them.
Featured image: A process Wwithout past and future is purifiable iff it can be recovered from a pure process Sby inputting the state 0⟩in the past P
and tracing out the future F. If reversibility is respected in nature, only purifiable processes are physical.
Original language | English |
---|---|
Article number | 10 |
Number of pages | 13 |
Journal | Quantum |
Volume | 1 |
DOIs | |
Publication status | Published - 26 Apr 2017 |
Austrian Fields of Science 2012
- 103025 Quantum mechanics
Keywords
- SPACE
Projects
- 3 Finished
-
Quantum Correlations and Quantum Communication Complexity
1/12/12 → 30/11/16
Project: Research funding
-
FoQuS III - P14: Simulation of strongly correlated quantum systems
Verstraete, F., Walther, P. & Paulovics, V.
1/01/09 → 31/12/18
Project: Research funding
-
CoQuS: Complex Quantum Systems
Aspelmeyer, M., Arndt, M. & Paulovics, V.
1/10/07 → 31/12/20
Project: Research funding