Introductory quantum mechanics
... Where is exactly the particle located within Dx? the locality of a particle becomes fuzzy when it’s represented by its matter wave. We can no more tell for sure where it is exactly located. Recall that in the case of conventional wave physics, |field amplitude|2 is proportional to the intensity of ...
... Where is exactly the particle located within Dx? the locality of a particle becomes fuzzy when it’s represented by its matter wave. We can no more tell for sure where it is exactly located. Recall that in the case of conventional wave physics, |field amplitude|2 is proportional to the intensity of ...
Introduction to Quantum Information
... I am grateful to Oxford University Press for their permission and, indeed, encouragement to reproduce some of the material from (Barnett 2009). I wish to express also my gratitude to Allison Yao for her help in preparing these notes. ...
... I am grateful to Oxford University Press for their permission and, indeed, encouragement to reproduce some of the material from (Barnett 2009). I wish to express also my gratitude to Allison Yao for her help in preparing these notes. ...
Population Inversion in a Single InGaAs Quantum Dot Using
... state to the other as the anticrossing is traversed, and ARP uses this to switch the system from the ground state to the excited state as shown in Fig. 1(b). For ARP to operate, the quantum dynamics during the interaction with the field must not be interrupted by random events leading to dephasing o ...
... state to the other as the anticrossing is traversed, and ARP uses this to switch the system from the ground state to the excited state as shown in Fig. 1(b). For ARP to operate, the quantum dynamics during the interaction with the field must not be interrupted by random events leading to dephasing o ...
Quantum State Transfer via Noisy Photonic and Phononic Waveguides
... [14,15]. Thus, imperfections in the quantum channel include photon or phonon loss, and, in particular for microwave photons and phonons, a (thermal) noise background [16]. In this Letter, we propose a QST protocol and a corresponding quantum optical setup which allow for state transfer with high fid ...
... [14,15]. Thus, imperfections in the quantum channel include photon or phonon loss, and, in particular for microwave photons and phonons, a (thermal) noise background [16]. In this Letter, we propose a QST protocol and a corresponding quantum optical setup which allow for state transfer with high fid ...
