Search Results - "Letizia Catalini"

  • Showing 1 - 14 results of 14
Refine Results
  1. 1

    Two-membrane cavity optomechanics by Piergentili, Paolo, Catalini, Letizia, Bawaj, Mateusz, Zippilli, Stefano, Malossi, Nicola, Natali, Riccardo, Vitali, David, Giuseppe, Giovanni Di

    Published in New journal of physics (17-08-2018)
    “…We study the optomechanical behaviour of a driven Fabry-Pérot cavity containing two vibrating dielectric membranes. We characterize the cavity mode frequency…”
    Get full text
    Journal Article
  2. 2

    Energy landscape and flow dynamics measurements of driven-dissipative systems by Dumont, Vincent, Bestler, Markus, Catalini, Letizia, Margiani, Gabriel, Zilberberg, Oded, Eichler, Alexander

    Published in Physical review research (01-10-2024)
    “…Many experimental techniques aim at determining the energy landscape of a system given and compare it to a model Hamiltonian. This landscape governs the…”
    Get full text
    Journal Article
  3. 3

    Modeling and Observation of Nonlinear Damping in Dissipation-Diluted Nanomechanical Resonators by Catalini, Letizia, Rossi, Massimiliano, Langman, Eric C, Schliesser, Albert

    Published in Physical review letters (30-04-2021)
    “…Dissipation dilution enables extremely low linear loss in stressed, high aspect ratio nanomechanical resonators, such as strings or membranes. Here, we report…”
    Get full text
    Journal Article
  4. 4

    Multimode Cavity Optomechanics by Paolo Piergentili, Letizia Catalini, Mateusz Bawaj, Stefano Zippili, Nicola Malossi, Riccardo Natali, David Vitali, Giovanni Di Giuseppe

    Published in Proceedings (01-11-2019)
    “…We study theoretically and experimentally the behavior of an optomechanical system where two vibrating dielectric membranes are placed inside a driven…”
    Get full text
    Journal Article
  5. 5

    Adiabatic and diabatic responses in a Duffing resonator driven by two detuned tones by Catalini, Letizia, del Pino, Javier, Kumar, Soumya S, Dumont, Vincent, Margiani, Gabriel, Zilberberg, Oded, Eichler, Alexander

    Published 28-08-2024
    “…The combination of a strong pump and a weak probe has been widely applied to investigate both optical and nanomechanical devices. Such pump-probe measurements…”
    Get full text
    Journal Article
  6. 6

    Strong Thermomechanical Noise Squeezing Stabilized by Feedback by Mashaal, Aida, Stefan, Lucio, Ranfagni, Andrea, Catalini, Letizia, Chernobrovkin, Ilia, Capelle, Thibault, Langman, Eric, Schliesser, Albert

    Published 04-03-2024
    “…Squeezing the quadrature noise of a harmonic oscillator used as a sensor can enhance its sensitivity in certain measurment schemes. The canonical approach,…”
    Get full text
    Journal Article
  7. 7

    Hamiltonian reconstruction via ringdown dynamics by Dumont, Vincent, Bestler, Markus, Catalini, Letizia, Margiani, Gabriel, Zilberberg, Oded, Eichler, Alexander

    Published 29-02-2024
    “…Many experimental techniques aim at determining the Hamiltonian of a given system. The Hamiltonian describes the system's evolution in the absence of…”
    Get full text
    Journal Article
  8. 8

    Near-resonant nuclear spin detection with high-frequency mechanical resonators by Visani, Diego A, Catalini, Letizia, Degen, Christian L, Eichler, Alexander, del Pino, Javier

    Published 27-11-2023
    “…Mechanical resonators operating in the high-frequency regime have become a versatile platform for fundamental and applied quantum research. Their exceptional…”
    Get full text
    Journal Article
  9. 9

    Soft-clamped phononic dimers for mechanical sensing and transduction by Catalini, Letizia, Tsaturyan, Yeghishe, Schliesser, Albert

    Published 29-04-2020
    “…Phys. Rev. Applied 14, 014041 (2020) Coupled micro- and nanomechanical resonators are of significant interest within a number of areas of research, ranging…”
    Get full text
    Journal Article
  10. 10

    Enhancing Membrane-Based Scanning Force Microscopy Through an Optical Cavity by Gisler, Thomas, Hälg, David, Dumont, Vincent, Misra, Shobhna, Catalini, Letizia, Langman, Eric C, Schliesser, Albert, Degen, Christian L, Eichler, Alexander

    Published 11-06-2024
    “…The new generation of strained silicon nitride resonators harbors great promise for scanning force microscopy, especially when combined with the extensive…”
    Get full text
    Journal Article
  11. 11

    Modelling and observation of nonlinear damping in dissipation-diluted nanomechanical resonators by Catalini, Letizia, Rossi, Massimiliano, Langman, Eric C, Schliesser, Albert

    Published 23-04-2021
    “…Phys. Rev. Lett. 126, 174101 (2021) Dissipation dilution enables extremely low linear loss in stressed, high-aspect ratio nanomechanical resonators, such as…”
    Get full text
    Journal Article
  12. 12

    Sandwich in the Middle: Enhancing the Optomechanical Coupling by Piergentili, Paolo, Catalini, Letizia, Bawaj, Mateusz, Zippili, Stefano, Malossi, Nicola, Natali, Riccardo, Vitali, David, Di Giuseppe, Giovanni

    “…Multi-element systems of micro/nano-mechanical resonators offer promising prospects for enhanced optomechanical performances, and for the exploration of…”
    Get full text
    Conference Proceeding
  13. 13

    Two-membrane cavity optomechanics by Piergentili, Paolo, Catalini, Letizia, Bawaj, Mateusz, Zippilli, Stefano, Malossi, Nicola, Natali, Riccardo, Vitali, David, Di Giuseppe, Giovanni

    Published 31-08-2018
    “…Paolo Piergentili et al 2018 New J. Phys. 20 083024 We study the optomechanical behaviour of a driven Fabry-P\'erot cavity containing two vibrating dielectric…”
    Get full text
    Journal Article
  14. 14

    Membrane-based scanning force microscopy by Hälg, David, Gisler, Thomas, Tsaturyan, Yeghishe, Catalini, Letizia, Grob, Urs, Krass, Marc-Dominik, Héritier, Martin, Mattiat, Hinrich, Thamm, Ann-Katrin, Schirhagl, Romana, Langman, Eric C, Schliesser, Albert, Degen, Christian L, Eichler, Alexander

    Published 11-06-2020
    “…Phys. Rev. Applied 15, 021001 (2021) We report the development of a scanning force microscope based on an ultra-sensitive silicon nitride membrane transducer…”
    Get full text
    Journal Article