Simulation of quantum gates by postselection of interference experiments in multi-port beam-splitter (BS) configurations

TL;DR

This paper proposes a method to simulate quantum gates like CNOT and SWAP using multi-port beam-splitter setups with postselection, enabling quantum gate simulation through interference experiments.

Contribution

It introduces a novel postselection technique in multi-port beam-splitter configurations to explicitly simulate two-qubit quantum gates.

Findings

Successfully simulates CNOT and SWAP gates

Uses postselection to filter specific photon exit cases

Achieves gate simulation with 25% experimental efficiency

Abstract

Using multiport beam-splitter (BS) configurations eight input operators a(0),a(1),a(2) a(3),a(4) a(5),a(6), a(7) are mixed by 12 BS's to produce the output operators b(0), b(1), b(2), b(3), b(4), b(5), b(6), b(7). A single photon entering into, or exiting from, one port of a BS is considered as the |0> state while that in the second port of the BS is considered as the |1> state. Two single photons are inserted into two of the BS's simulating two input qubit-states by operators a(0), a(1),a(2), a(3) . In order to simulate the two-qubit gates we exclude by postselection all the cases in which one or two photons exit through output ports b(4), b(5), b(6), b(7) so that only 25% of the experiments are taken into account. The method simulates explicitly the CNOT and SWAP gates but similar methods can be used for other gates.