Your search keyword '"Higgins, Gerard"' showing total 8 results

1. A Superconducting Levitated Detector of Gravitational Waves

Author

Carney, Daniel, Higgins, Gerard, Marocco, Giacomo, and Wentzel, Michael

Subjects

High Energy Physics - Phenomenology, Astrophysics - High Energy Astrophysical Phenomena, General Relativity and Quantum Cosmology, High Energy Physics - Experiment

Abstract

A magnetically levitated mass couples to gravity and can act as an effective gravitational wave detector. We show that a superconducting sphere levitated in a quadrupolar magnetic field, when excited by a gravitational wave, will produce magnetic field fluctuations that can be read out using a flux tunable microwave resonator. With a readout operating at the standard quantum limit, such a system could achieve broadband strain noise sensitivity of $h \lesssim 10^{-19}/\sqrt{\rm Hz}$ for frequencies of $10~\mathrm{kHz}~-~1~\mathrm{MHz}$, opening new corridors for astrophysical probes of new physics., Comment: 4 pages, 2 figures, 10 pages of appendices

Published

2024

2. Modelling magnetically-levitated superconducting ellipsoids, cylinders and cuboids for quantum magnetomechanics

Author

Bort-Soldevila, Natanael, Cunill-Subiranas, Jaume, Del-Valle, Nuria, Wieczorek, Witlef, Higgins, Gerard, Trupke, Michael, and Navau, Carles

Subjects

Physics - Applied Physics, Condensed Matter - Materials Science, Quantum Physics

Abstract

We theoretically investigate the properties of magnetically-levitated superconducting rotors confined in anti-Helmholtz traps, for application in magnetomechanical experiments. We study both the translational modes and a librational mode. The librational mode gives an additional degree of freedom that levitated spheres do not have access to. We compare rotors of different shapes: ellipsoids, cylinders and cuboids. We find that the stable orientations of the rotors depend on the rotors' aspect ratios., Comment: 17 pages, 6 figures

Published

2024

3. Phononic bright and dark states: Investigating multi-mode light-matter interactions with a single trapped ion

Author

Parke, Harry, Thomm, Robin, Santos, Alan C., Cidrim, André, Higgins, Gerard, Mallweger, Marion, Kuk, Natalia, Salim, Shalina, Bachelard, Romain, Villas-Boas, Celso J., and Hennrich, Markus

Subjects

Quantum Physics

Abstract

Interference underpins some of the most practical and impactful properties of both the classical and quantum worlds. In this work we experimentally investigate a new formalism to describe interference effects, based on collective states which have enhanced or suppressed coupling to a two-level system. We employ a single trapped ion, whose electronic state is coupled to two of the ion's motional modes in order to simulate a multi-mode light-matter interaction. We observe the emergence of phononic bright and dark states for both a single phonon and a superposition of coherent states and demonstrate that a view of interference which is based solely on their decomposition in the collective basis is able to intuitively describe their coupling to a single atom. This work also marks the first time that multi-mode bright and dark states have been formed with the bounded motion of a single trapped ion and we highlight the potential of the methods discussed here for use in quantum information processing., Comment: 7 + 5 pages, 6 + 4 figures

Published

2024

4. Gravitationally Mediated Entanglement with Superpositions of Rotational Energies

Author

Higgins, Gerard, Di Biagio, Andrea, and Christodoulou, Marios

Subjects

Quantum Physics, General Relativity and Quantum Cosmology

Abstract

Experimental proposals for testing quantum gravity-induced entanglement of masses (QGEM) typically involve two interacting masses which are each in a spatial superposition state. Here, we propose a QGEM experiment with two particles which are each in a superposition of rotational states, this amounts to a superposition of mass through mass-energy equivalence. Our proposal relies on the fact that rotational energy gravitates. This approach would test a feature unique to gravity since it amounts to sourcing a spacetime in superposition due to a superposition of 'charge'. We propose and analyse a concrete experimental protocol and discuss challenges., Comment: 5 pages, 3 figures, 3 pages supplemental material

Published

2024

5. Motional state analysis of a trapped ion by ultra-narrowband composite pulses

Author

Mallweger, Marion, Guevara-Bertsch, Milena, Torosov, Boyan T., Thomm, Robin, Kuk, Natalia, Parke, Harry, Roos, Christian F., Higgins, Gerard, Hennrich, Markus, and Vitanov, Nikolay V.

Subjects

Quantum Physics

Abstract

In this work, we present a method for measuring the motional state of a two-level system coupled to a harmonic oscillator. Our technique uses ultra-narrowband composite pulses on the blue sideband transition to scan through the populations of the different motional states. Our approach does not assume any previous knowledge of the motional state distribution and is easily implemented. It is applicable both inside and outside of the Lamb-Dicke regime. For higher phonon numbers especially, the composite pulse sequence can be used as a filter for measuring phonon number ranges. We demonstrate this measurement technique using a single trapped ion and show good detection results with the numerically evaluated pulse sequence., Comment: 8 pages, 7 figures

Published

2024

6. Remote sensing of a levitated superconductor with a flux-tunable microwave cavity

Author

Schmidt, Philip, Claessen, Remi, Higgins, Gerard, Hofer, Joachim, Hansen, Jannek J., Asenbaum, Peter, Uhl, Kevin, Kleiner, Reinhold, Gross, Rudolf, Huebl, Hans, Trupke, Michael, and Aspelmeyer, Markus

Subjects

Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We present a cavity-electromechanical system comprising a superconducting quantum interference device which is embedded in a microwave resonator and coupled via a pick-up loop to a 6 $\mu$g magnetically-levitated superconducting sphere. The motion of the sphere in the magnetic trap induces a frequency shift in the SQUID-cavity system. We use microwave spectroscopy to characterize the system, and we demonstrate that the electromechanical interaction is tunable. The measured displacement sensitivity of $10^{-7} \, \mathrm{m} / \sqrt{\mathrm{Hz}}$, defines a path towards ground-state cooling of levitated particles with Planck-scale masses at millikelvin environment temperatures.

Published

2024

7. Backaction-evading receivers with magnetomechanical and electromechanical sensors

Author

Richman, Brittany, primary, Ghosh, Sohitri, additional, Carney, Daniel, additional, Higgins, Gerard, additional, Shawhan, Peter, additional, Lobb, C. J., additional, and Taylor, Jacob M., additional

Published

2024

8. Maglev for dark matter: Dark-photon and axion dark matter sensing with levitated superconductors

Author

Higgins, Gerard, primary, Kalia, Saarik, additional, and Liu, Zhen, additional

Published

2024