# Positivity of the assignment map implies complete positivity of the   reduced dynamics

**Authors:** Iman Sargolzahi

arXiv: 1906.11502 · 2020-09-01

## TL;DR

This paper shows that a positive assignment map guarantees the reduced dynamics of a quantum system is completely positive, linking initial state structure to the nature of system evolution.

## Contribution

It establishes that positivity of the assignment map implies the reference state is Markovian, ensuring the reduced dynamics is completely positive, a novel connection in quantum dynamics.

## Key findings

- Positive assignment map implies Markovian reference state.
- Markovianity ensures existence of a completely positive assignment map.
- For qubits, entangled initial states lead to non-positive or non-map reduced dynamics.

## Abstract

Consider the set $\mathcal{S}=\lbrace\rho_{SE}\rbrace$ of possible initial states of the system-environment. The map which assigns to each $\rho_{S}\in \mathrm{Tr}_{E}\mathcal{S}$ a $\rho_{SE}\in \mathcal{S}$ is called the assignment map. The assignment map is Hermitian, in general. In this paper, we restrict ourselves to the case that the assignment map is, in addition, positive and show that this implies that the so-called reference state is a Markov state. Markovianity of the reference state leads to existence of another assignment map which is completely positive. So, the reduced dynamics of the system is also completely positive. As a consequence, when the system $S$ is a qubit, we show that if $\mathcal{S}$ includes entangled states, then either the reduced dynamics is not given by a map, for, at least, one unitary time evolution of the system-environment $U$, or the reduced dynamics is non-positive, for, at least, one $U$.

## Full text

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## References

46 references — full list in the complete paper: https://tomesphere.com/paper/1906.11502/full.md

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Source: https://tomesphere.com/paper/1906.11502