Introduction to Quantum Information Archives

Is rotating a polarizing filter equivalent to changing the photon polarization measurement basis?

Monday, 06 May 2024 by dkarayiannakis

Rotating polarizing filters is indeed equivalent to changing the photon polarization measurement basis in the realm of quantum information based on quantum optics, particularly concerning photon polarization. Understanding this concept is fundamental in comprehending the principles underlying quantum information processing and quantum communication protocols. In quantum mechanics, the polarization of a photon refers to the

Published in Quantum Information, EITC/QI/QIF Quantum Information Fundamentals, Introduction to Quantum Information, Photon polarization

Tagged under: POLARIZING FILTERS, Quantum Communication, Quantum Information, Quantum Key Distribution, Quantum Mechanics, Quantum Teleportation

How can a qubit be implemented by an electron or an exciton trapped in a quantum dot?

Monday, 06 May 2024 by dkarayiannakis

A qubit, the fundamental unit of quantum information, can indeed be implemented by an electron or an exciton trapped in a quantum dot. Quantum dots are nanoscale semiconductor structures that confine electrons in three dimensions. These nanostructues (sometimes referred to as artificial atoms, but not truly accurately due to a size of localization and hence

Published in Quantum Information, EITC/QI/QIF Quantum Information Fundamentals, Introduction to Quantum Information, Qubits

Tagged under: CoherenceTime, Excitons, Quantum Information, QuantumComputing, QuantumDots, QubitImplementation

The electron will always be in either of these energy states with certain probabilities?

Sunday, 05 May 2024 by dkarayiannakis

In the realm of quantum information, particularly concerning qubits, the concept of energy states and probabilities plays a fundamental role in understanding the behavior of quantum systems. When considering the energy states of an electron within a quantum system, it's essential to acknowledge the inherent probabilistic nature of quantum mechanics. Unlike classical systems where particles

Published in Quantum Information, EITC/QI/QIF Quantum Information Fundamentals, Introduction to Quantum Information, Qubits

Tagged under: Energy States, Probability Theory, Quantum Algorithms, Quantum Computing, Quantum Information, Quantum Mechanics

Can a qubit be modelled by an electron on an energy orbital of an atom?

Friday, 03 May 2024 by dkarayiannakis

The qubit, a fundamental unit of quantum information, can indeed be modeled by an electron occupying an orbital of an atom with specific energy levels. In quantum mechanics, an electron in an atom can exist in different energy states, each associated with a specific orbital. These energy levels are quantized, meaning they can only take

Published in Quantum Information, EITC/QI/QIF Quantum Information Fundamentals, Introduction to Quantum Information, Qubits

Tagged under: Quantum Algorithms, Quantum Computing, Quantum Information, Quantum Mechanics, Quantum Superposition, Spectroscopy

Can we consider the evolution of a qubit as its state rotation?

Sunday, 28 April 2024 by Marin Plazonić

In the realm of quantum information, a qubit, the fundamental unit of quantum information, can indeed be conceptualized as undergoing state rotations during its evolution. This notion stems from the inherent quantum mechanical properties of qubits, which allow them to exist in superpositions of classical states, unlike classical bits that can only be in one

Published in Quantum Information, EITC/QI/QIF Quantum Information Fundamentals, Introduction to Quantum Information, Qubits

Tagged under: Bloch Sphere, Quantum Algorithms, Quantum Computing, Quantum Gates, Quantum Information, Quantum State Rotation