An Experimental Proposal to Study Collapse of the Wave Function in Traveling‐Wave Parametric Amplifiers Article Swipe

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Amplifier Parametric statistics Traveling wave Physics Function (biology) Acoustics Mathematics Mathematical analysis Optoelectronics Statistics Biology Evolutionary biology CMOS

T. H. A. van der Reep , Louk Rademaker , Xavier G. A. Le Large , Ruben H. Guis , Tjerk H. Oosterkamp ·

YOU? · · 2020 · Open Access · · DOI: https://doi.org/10.1002/pssb.202000567 · OA: W2999581861

The readout of a microwave qubit state occurs using an amplification chain that enlarges the quantum state to a signal detectable with a classical measurement apparatus. However, at what point in this process is the quantum state really “measured”? To investigate whether the “measurement” takes place in the amplification chain, in which a parametric amplifier is often chosen as the first amplifier, it is proposed to construct a microwave interferometer that has such an amplifier added to each of its arms. Feeding the interferometer with single photons, the interference visibility depends on the gain of the amplifiers and whether a measurement collapse has taken place during the amplification process. The visibility as given by standard quantum mechanics is calculated as a function of gain, insertion loss, and temperature. A visibility of is found in the limit of large gain without considering losses, which is reduced to in case the insertion loss of the amplifiers is at a temperature of . It is shown that if the wave function collapses within the interferometer, the measured visibility is reduced compared with its magnitude predicted by standard quantum mechanics once this collapse process sets in.