Volume 18

  • No. 8 August 2022

    Big effort for big G

    Measurements of the gravitational interaction between two parallel beams vibrating in bending motion enable the quantitative investigation of dynamic gravitation in the hertz regime and allow the determination of the gravitational constant.

    See Brack et al. and Rothleitner

  • No. 7 July 2022

    The sound of a qubit

    Mechanical resonators combined with superconducting circuits are a promising platform for controlling non-classical mechanical states. Here, this platform is used to directly measure the parity of a motional quantum state.

    See von Lüpke et al. and Navarathna and Bowen

  • No. 6 June 2022

    Momentum-dependent Landé factor

    The change in a band structure when a magnetic field is applied should depend on the momentum of the electronic state, but this is hard to measure. Now, this effect is demonstrated in a topological magnet.

    See Li et al.

  • No. 5 May 2022

    Dark state control

    Dark states of quantum systems do not absorb or emit light, removing a major source of decoherence. Four superconducting qubits in a waveguide can be combined to make a coherently controlled dark-state qubit with a long lifetime.

    See Zanner et al. and Masson and Asenjo-Garcia

  • No. 4 April 2022

    Time to relax

    The dynamic relaxation spectrum of a supercooled liquid is asymmetric near the glass transition. Overcoming the difficulties of accessing low temperatures and long time scales, simulations now attribute this feature to dynamic facilitation.

    See Guiselin et al. and Zorn

  • No. 3 March 2022

    March of the beating cilia

    The beating of motile cilia arises from the collective action of hundreds of proteins. A study of the dynamics of cilia under different environmental and genetic conditions shows that the space of beating variations is low-dimensional.

    See Geyer et al. and Wan

  • No. 2 February 2022

    Blinded by the light neutrino

    In its second measurement campaign, the Karlsruhe Tritium Neutrino experiment achieved a sub-eV sensitivity on the effective electron antineutrino mass.

    See The KATRIN Collaboration and Nucciotti

  • No. 1 January 2022

    Entangled with Cherenkov

    Despite their relevance for quantum technology, photon-pair sources are difficult to control. A theoretical proposal shows how photon pairs can be created from vacuum fluctuations in time-dependent systems, potentially enabling heralded single-photon frequency combs.

    See Sloan et al. and Talebi