Simon Neves
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View article: Realizing a compact, high-fidelity, telecom-wavelength source of multipartite entangled photons
Realizing a compact, high-fidelity, telecom-wavelength source of multipartite entangled photons Open
Multipartite entangled states are an essential building block for advanced quantum networking applications. Realizing such tasks in practice puts stringent requirements on the characteristics of the states in terms of fidelity and generati…
View article: Experimentally Certified Transmission of a Quantum Message through an Untrusted and Lossy Quantum Channel via Bell’s Theorem
Experimentally Certified Transmission of a Quantum Message through an Untrusted and Lossy Quantum Channel via Bell’s Theorem Open
Quantum transmission links are central elements in essentially all protocols involving the exchange of quantum messages. Emerging progress in quantum technologies involving such links needs to be accompanied by appropriate certification to…
View article: Open-path detection of organic vapors via quantum infrared spectroscopy
Open-path detection of organic vapors via quantum infrared spectroscopy Open
In recent years, quantum Fourier transform infrared (QFTIR) spectroscopy has emerged as an alternative to conventional absorption spectroscopy in the mid-infrared region of the spectrum. By harnessing induced coherence and spectral correla…
View article: Realizing a Compact, High-Fidelity, Telecom-Wavelength Source of Multipartite Entangled Photons
Realizing a Compact, High-Fidelity, Telecom-Wavelength Source of Multipartite Entangled Photons Open
Multipartite entangled states are an essential building block for advanced quantum networking applications. Realizing such tasks in practice puts stringent requirements on the characteristics of the states in terms of fidelity and generati…
View article: Open-Path Detection of Organic Vapors via Quantum Infrared Spectroscopy
Open-Path Detection of Organic Vapors via Quantum Infrared Spectroscopy Open
In recent years, quantum Fourier transform infrared (QFTIR) spectroscopy emerged as an alternative to conventional spectroscopy in the mid-infrared region of the spectrum. By harnessing induced coherence and spectral entanglement, QFTIR of…
View article: Experimentally Certified Transmission of a Quantum Message through an Untrusted and Lossy Quantum Channel via Bell's Theorem
Experimentally Certified Transmission of a Quantum Message through an Untrusted and Lossy Quantum Channel via Bell's Theorem Open
Quantum transmission links are central elements in essentially all protocols involving the exchange of quantum messages. Emerging progress in quantum technologies involving such links needs to be accompanied by appropriate certification to…
View article: Photonic Resources for the Implementation of Quantum Network Protocols
Photonic Resources for the Implementation of Quantum Network Protocols Open
The security of modern communication networks can be enhanced thanks to the laws of quantum mechanics. In this thesis, we develop a source of photon-pairs, emitted via spontaneous parametric down-conversion, which we use to demonstrate new…
View article: Experimental cheat-sensitive quantum weak coin flipping
Experimental cheat-sensitive quantum weak coin flipping Open
As in modern communication networks, the security of quantum networks will rely on complex cryptographic tasks that are based on a handful of fundamental primitives. Weak coin flipping (WCF) is a significant such primitive which allows two…
View article: Experimental cheat-sensitive quantum weak coin flipping
Experimental cheat-sensitive quantum weak coin flipping Open
As in modern communication networks, the security of quantum networks will\nrely on complex cryptographic tasks that are based on a handful of fundamental\nprimitives. Weak coin flipping (WCF) is a significant such primitive which\nallows …
View article: Quantum City: simulation of a practical near-term metropolitan quantum network
Quantum City: simulation of a practical near-term metropolitan quantum network Open
We present the architecture and analyze the applications of a metropolitan-scale quantum network that requires only limited hardware resources for end users. Using NetSquid, a quantum network simulation tool based on discrete events, we as…