Solid‐State Single‐Photon Sources: Recent Advances for Novel Quantum Materials
In this review, the current landscape of emergent quantum materials for quantum photonic
applications is described. The review focuses on three specific solid‐state platforms: single …
applications is described. The review focuses on three specific solid‐state platforms: single …
Enhanced fault-tolerance in photonic quantum computing: Floquet code outperforms surface code in tailored architecture
Fault-tolerant quantum computing is crucial for realizing large-scale quantum computation,
and the interplay between hardware architecture and quantum error-correcting codes is a …
and the interplay between hardware architecture and quantum error-correcting codes is a …
Photonic fusion of entangled resource states from a quantum emitter
Fusion-based photonic quantum computing architectures rely on two primitives: i) near-
deterministic generation and control of constant-size entangled states and ii) probabilistic …
deterministic generation and control of constant-size entangled states and ii) probabilistic …
Tailoring fusion-based photonic quantum computing schemes to quantum emitters
Fusion-based quantum computation is a promising quantum computing model where small-
sized photonic resource states are simultaneously entangled and measured by fusion gates …
sized photonic resource states are simultaneously entangled and measured by fusion gates …
A photonic parameter-shift rule: enabling gradient computation for photonic quantum computers
We present a method for gradient computation in quantum algorithms implemented on linear
optical quantum computing platforms. While parameter-shift rules have become a staple in …
optical quantum computing platforms. While parameter-shift rules have become a staple in …
Deterministic and reconfigurable graph state generation with a single solid-state quantum emitter
Measurement-based quantum computing offers a promising route towards scalable,
universal photonic quantum computation. This approach relies on the deterministic and …
universal photonic quantum computation. This approach relies on the deterministic and …
A Complete Graphical Language for Linear Optical Circuits with Finite-Photon-Number Sources and Detectors
N Heurtel - arxiv preprint arxiv:2402.17693, 2024 - arxiv.org
Linear optical circuits can be used to manipulate the quantum states of photons as they pass
through components including beam splitters and phase shifters. Those photonic states …
through components including beam splitters and phase shifters. Those photonic states …
Fusion and flow: formal protocols to reliably build photonic graph states
Photonics offers a promising platform for implementations of measurement-based quantum
computing. Recently proposed fusion-based architectures aim to achieve universality and …
computing. Recently proposed fusion-based architectures aim to achieve universality and …
Minimizing resource overhead in fusion-based quantum computation using hybrid spin-photon devices
We present three schemes for constructing a (2, 2)-Shor-encoded 6-ring photonic resource
state for fusion-based quantum computing, each relying on a different type of photon source …
state for fusion-based quantum computing, each relying on a different type of photon source …
Efficient percolation simulations for lossy photonic fusion networks
The study of percolation phenomena has various applications ranging from social networks
or materials science to quantum information. The most common percolation models are …
or materials science to quantum information. The most common percolation models are …