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Concepts in quantum state tomography and classical implementation with intense light: a tutorial
A tomographic measurement is a ubiquitous tool for estimating the properties of quantum
states, and its application is known as quantum state tomography (QST). The process …
states, and its application is known as quantum state tomography (QST). The process …
Entanglement-assisted quantum communication with simple measurements
Dense coding is the seminal example of how entanglement can boost qubit communication,
from sending one bit to sending two bits. This is made possible by projecting separate …
from sending one bit to sending two bits. This is made possible by projecting separate …
Self-testing quantum states and measurements in the prepare-and-measure scenario
The goal of self-testing is to characterize an a priori unknown quantum system based solely
on measurement statistics, ie, using an uncharacterized measurement device. Here we …
on measurement statistics, ie, using an uncharacterized measurement device. Here we …
Quantum cryptography: Key distribution and beyond
Quantum Cryptography: Key Distribution and Beyond Page 1 Quantum Cryptography: Key
Distribution and Beyond Akshata Shenoy-Hejamadi 1, Anirban Pathak 2 & Srikanth …
Distribution and Beyond Akshata Shenoy-Hejamadi 1, Anirban Pathak 2 & Srikanth …
[HTML][HTML] Semi-device-independent framework based on natural physical assumptions
The semi-device-independent approach provides a framework for prepare-and-measure
quantum protocols using devices whose behavior must not be characterized nor trusted …
quantum protocols using devices whose behavior must not be characterized nor trusted …
Dimension witnesses and quantum state discrimination
Dimension witnesses allow one to test the dimension of an unknown physical system in a
device-independent manner, that is, without placing assumptions about the functioning of …
device-independent manner, that is, without placing assumptions about the functioning of …
Certifying the dimension of classical and quantum systems in a prepare-and-measure scenario with independent devices
We consider the problem of testing the dimension of uncharacterized classical and quantum
systems in a prepare-and-measure setup. Here we assume the preparation and …
systems in a prepare-and-measure setup. Here we assume the preparation and …
Self-testing mutually unbiased bases in the prepare-and-measure scenario
Mutually unbiased bases (MUBs) constitute the canonical example of incompatible quantum
measurements. One standard application of MUBs is the task known as quantum random …
measurements. One standard application of MUBs is the task known as quantum random …
Self-testing nonprojective quantum measurements in prepare-and-measure experiments
Self-testing represents the strongest form of certification of a quantum system. Here, we
theoretically and experimentally investigate self-testing of nonprojective quantum …
theoretically and experimentally investigate self-testing of nonprojective quantum …
Leggett-Garg macrorealism and temporal correlations
Leggett and Garg formulated macrorealist models encoding our intuition on classical
systems, ie, physical quantities have a definite value that can be measured with minimal …
systems, ie, physical quantities have a definite value that can be measured with minimal …