2WQC - Adding Postparation as Reversed State Preparation Process to Solve NP Problems

Explore a seminar presentation on solving NP problems using a novel approach called 2WQC (Two-Way Quantum Computing) that incorporates postparation as a reversed state preparation process. Delve into analytical solutions for tight-binding models of position-based charge qubits and N-interacting qubits in quasi-one-dimensional networks of coupled quantum dots. Examine the quantum dynamical states of electrons under various electromagnetic conditions, omitting spin degrees of freedom. Study analytical formulas for Hadamard and phase-rotating gates in two-level systems. Investigate the interface between superconducting Josephson junctions and semiconductor position-based qubits, including the modification of Andreev Bound States and potential topological phase transitions. Learn about the implementation of phase rotating gates in semiconductor position-based qubits using electrical and magnetic fields, all presented through an analytical approach.