Benedikt Pressl scite author profile

Within the established theoretical framework of quantum mechanics, interference always occurs between pairs of paths through an interferometer. Higher order interferences with multiple constituents are excluded by Born's rule and can only exist in generalized probabilistic theories. Thus, high-precision experiments searching for such higher order interferences are a powerful method to distinguish between quantum mechanics and more general theories. Here, we perform such a test in an optical multi-path interferometer, which avoids crucial systematic errors, has access to the entire phase space and is more stable than previous experiments. Our results are in accordance with quantum mechanics and rule out the existence of higher order interference terms in optical interferometry to an extent that is more than four orders of magnitude smaller than the expected pairwise interference, refining previous bounds by two orders of magnitude.

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Testing Born’s Rule in Quantum Mechanics for Three Mutually Exclusive Events

Söllner

Gschosser

Mai

et al. 2011

Found Phys

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We present a new experimental approach using a three-path interferometer and find a tighter empirical upper bound on possible violations of Born's Rule. A deviation from Born's rule would result in multi-order interference. Among the potential systematic errors that could lead to an apparent violation we specifically study the nonlinear response of our detectors and present ways to calibrate this error in order to obtain an even better bound.

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Broadband indistinguishability from bright parametric downconversion in a semiconductor waveguide

Günthner

Pressl

Laiho

et al. 2015

J. Opt.

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Parametric downconversion (PDC) in semiconductor Braggreflection waveguides (BRW) is routinely exploited for photon-pair generation in the telecommunication range. Contrary to many conventional PDC sources, BRWs offer possibilities to create spectrally broadband but nevertheless indistinguishable photon pairs in orthogonal polarizations that simultaneously incorporate high frequency entanglement. We explore the characteristics of copropagating twin beams created in a type-II ridge BRW. Our PDC source is bright and efficient, which serves as a benchmark of its performance and justifies its exploitation for further use in quantum photonics. We then examine the coalescence of the twin beams and investigate the effect of their inevitable multiphoton contributions on the observed photon bunching. Our results show that BRWs have a great potential for producing broadband indistinguishable photon pairs as well as multi-photon states.

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Mode-resolved Fabry-Perot experiment in low-loss Bragg-reflection waveguides

et al. 2015

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Based on the interaction between different spatial modes, semiconductor Bragg-reflection waveguides (BRWs) provide a highly functional platform for non-linear optics. For achieving any desired quantum optical functionality, we must control and engineer the properties of each spatial mode. To reach this purpose we extend the Fabry-Perot technique and achieve a detailed linear optical characterization of dispersive multimode semiconductor waveguides. With this efficient broadband spectral method we gain direct experimental access to the relevant modes of our BRWs and determine their group velocities. Furthermore, we show that our waveguides have lower than expected loss coefficients. This renders them suitable for integrated quantum optics applications.

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Measurement and modeling of the nonlinearity of photovoltaic and Geiger-mode photodiodes

Kauten¹,

Pressl²,

Kaufmann³

et al. 2014

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While in most cases the absolute accuracy, resolution, and noise floor are the only relevant specifications for the dynamic range of a photodetector, there are experiments for which the linearity plays a more important role than the former three properties. In these experiments nonlinearity can lead to systematic errors. In our work we present a modern implementation of the well-known superposition method and apply it to two different types of photodetectors.

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Benedikt Pressl

Obtaining tight bounds on higher-order interferences with a 5-path interferometer

Testing Born’s Rule in Quantum Mechanics for Three Mutually Exclusive Events

Broadband indistinguishability from bright parametric downconversion in a semiconductor waveguide

Mode-resolved Fabry-Perot experiment in low-loss Bragg-reflection waveguides

Measurement and modeling of the nonlinearity of photovoltaic and Geiger-mode photodiodes

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