We present an intrinsically stable, deterministic implementation of discrete quantum walks with single photons in space. We measure walks with up to 6 steps and explore the quantum-to-classical transition by introducing tunable decoherence
The capability to generate and manipulate quantum states in high-dimensional Hilbert spaces is a cru...
We present a review of photonic implementations of discrete-time quantum walks (DTQW) in the spatial...
Quantum random walks are the quantum counterpart of classical random walks, and were recently studie...
We investigate the impact of decoherence and static disorder on the dynamics of quantum particles mo...
We investigate the impact of decoherence and static disorder on the dynamics of quantum particles mo...
We analyze the quantum walk on a cycle using discrete Wigner functions as a way to represent the sta...
We put forward a versatile and highly scalable experimental setup for the realization of discrete tw...
Abstract. We discuss decoherence in discrete-time quantum walks in terms of a phenomenological model...
The "quantum walk" has emerged recently as a paradigmatic process for the dynamic simulation of comp...
We analyze the strengths and limitations of steered discrete time quantum walks in generating quantu...
In a Quantum Walk (QW) the “walker” follows all possible paths at once through the principle of quan...
In a Quantum Walk (QW) the "walker" follows all possible paths at once through the principle of quan...
We present a flexible and robust system for implementing one-dimensional coined quantum walks. A rec...
Quantum walks have emerged as an interesting alternative to the usual circuit model for quantum comp...
Measurements on a quantum particle unavoidably affect its state, since the otherwise unitary evoluti...
The capability to generate and manipulate quantum states in high-dimensional Hilbert spaces is a cru...
We present a review of photonic implementations of discrete-time quantum walks (DTQW) in the spatial...
Quantum random walks are the quantum counterpart of classical random walks, and were recently studie...
We investigate the impact of decoherence and static disorder on the dynamics of quantum particles mo...
We investigate the impact of decoherence and static disorder on the dynamics of quantum particles mo...
We analyze the quantum walk on a cycle using discrete Wigner functions as a way to represent the sta...
We put forward a versatile and highly scalable experimental setup for the realization of discrete tw...
Abstract. We discuss decoherence in discrete-time quantum walks in terms of a phenomenological model...
The "quantum walk" has emerged recently as a paradigmatic process for the dynamic simulation of comp...
We analyze the strengths and limitations of steered discrete time quantum walks in generating quantu...
In a Quantum Walk (QW) the “walker” follows all possible paths at once through the principle of quan...
In a Quantum Walk (QW) the "walker" follows all possible paths at once through the principle of quan...
We present a flexible and robust system for implementing one-dimensional coined quantum walks. A rec...
Quantum walks have emerged as an interesting alternative to the usual circuit model for quantum comp...
Measurements on a quantum particle unavoidably affect its state, since the otherwise unitary evoluti...
The capability to generate and manipulate quantum states in high-dimensional Hilbert spaces is a cru...
We present a review of photonic implementations of discrete-time quantum walks (DTQW) in the spatial...
Quantum random walks are the quantum counterpart of classical random walks, and were recently studie...