Session Details
[P]Poster Session
Wed. Jun 4, 2025 5:30 PM - 7:30 PM JST
Wed. Jun 4, 2025 8:30 AM - 10:30 AM UTC
Wed. Jun 4, 2025 8:30 AM - 10:30 AM UTC
Poster Venue(1st Floor)
[P-002]Quantum nonlinearities in Carbon Nanotube Resonators
*Elsa Vázquez-Rodríguez1, Víctor Román-Rodríguez1, Eneko Mateos-Madinabeitia1, Roger Tormo-Queralt1, David Czaplewski2, Christoffer Bo Moller1, Marta Cagetti1, Stefan Forstner1, Fabio Pistolesi3, Adrian Bachtold1 (1. ICFO (Spain), 2. Argonne National Laboratory (United States of America), 3. Universite de Bordeaux (France))
[P-004]Effective Nonlinearity Control via Inter-Mode Coupling in Nanomechanical Resonators
*Andrey A. Shevyrin1,2, Arthur G. Pogosov1,3, Askhat K. Bakarov1,3, Alexander A. Shklyaev1,3, Akshay Naik2 (1. Rzhanov Institute of Semiconductor Physics SB RAS (Russia), 2. Centre for Nano Science and Engineering, Indian Institute of Science (India), 3. Novosibirsk State University (Russia))
[P-006]Electrostatic Readout of Soft-Clamped Membrane Motion
*Vishnu Kumar1, Andrea Ranfangi1, Michael Pitts1, Thibault Capelle1, Jonas Villadsen1, Eric Langman1, Albert Schliesser1 (1. Center for Hybrid Quantum Network, Niels Bohr Institute, University of Copenhagen (Denmark))
[P-008]Coupled Parametric Resonator System Using Capacitively Driven SiN Membranes
*Luis Pedro Martins Mestre1 (1. ETH Zurich (Switzerland))
[P-010]Correlated Dephasing in a Piezoelectrically Transduced Silicon Phononic Waveguide
*Oliver A. Hitchcock1,2, Matthew P Maksymowych1, Felix M Mayor1, Wentao Jiang1, Sultan Malik1, Amir H Safavi-Naeini1 (1. Department of Applied Physics and Ginzton Laboratory, Stanford University (United States of America), 2. Department of Physics, Stanford University (United States of America))
[P-012]Parametrically Controlling Mechanical Resonators Using A 3-Wave Mixing Superconducting Circuit
*Takuma Makihara1, Erik Szakiel1, Amir Safavi-Naeini1 (1. Stanford University (United States of America))
[P-014]Quantum Zeno blockade in optomechanical systems
*Karl Andreas Pelka1, André Xuereb1 (1. University of Malta (Malta))
[P-016]Magnetic Field Control of the Franck-Condon Coupling of
Few-Electron Quantum States
Peter L. Stiller1, Daniel R. Schmid1, Alois Dirnaichner1, *Andreas K. Hüttel1 (1. University of Regensburg (Germany))
[P-018]Stochastic switching in bifurcation-based nanomechanical resonant sensors
*Samuel Kirkbride1, Ashwin A. Seshia1 (1. University of Cambridge (UK))
[P-020]Quantum memory in Brillouin-active waveguides
Changlong Zhu1, *Birgit Stiller1,2,3 (1. Max Planck Institute for the Science of Light (Germany), 2. University of Erlangen-Nuremberg (Germany), 3. Leibniz University Hannover (Germany))
[P-022]Nano- and Micro-Electromechanical Mass sensor with sub-zeptogram Resolution
*SangWook Lee1, Sung Hyun Kim1, Dong-Hoon Shin2, Yugyeong Je1, Jaehyun Kim1, Chirlmin Joo3 (1. Ewha Womans University (Korea), 2. Korea University (Korea), 3. Delft University of Techology (Netherlands))
[P-026]Nonlinear Dynamics in Individual and Coupled Optomechanical Crystal Oscillators
David Alonso-Tomás1, Víctor González-Morote1, Néstor Eduardo Capuj2, *Daniel Navarro-Urrios1 (1. University of Barcelona (Spain), 2. University of La Laguna (Spain))
[P-028]Cryogenic AFM with an integrated kinetic inductive electromechanical transducer
*Ermes Scarano1, Elisabet Arvidsson1, August Roos1, Erik Holmgren1, Sofia Qvarfort2, David Haviland1 (1. KTH, Royal Institute of Technology (Sweden), 2. Nordita, KTH and Stockholm University (Sweden))
[P-030]Quantitative calibration of a TWPA applied to an optomechanical
platform
*Alexandre Delattre1 (1. Université Grenoble Alpes (France))
[P-032]Revealing Nonlinear Sideband Response in a Membrane Resonator with Two-tone Measurements
Fan Yang1,2, *Yuxuan Jiang3,4, Elke Scheer1 (1. Physics Department, University of Konstanz (Germany), 2. Dynamic Precision Micro and Nano Sensing Technology Research Institute (China), 3. School of Physics and Optoelectronics, Anhui University (China), 4. Center of Free Electron Laser and High Magnetic Field, Anhui University (China))
[P-034]Parametric Normal Mode Splitting for Quantifying Modal Coupling
*Ahmed A. Barakat1, Avishek Chowdhury1, Anh Tuan Le1, Eva M. Weig1,2,3 (1. School of Computation, Information and Technology, TU Munich (Germany), 2. Munich Center for Quantum Science and Technology (MCQST) (Germany), 3. TUM Center for Quantum Engineering (ZQE) (Germany))
[P-036]Towards Freely-Suspended Magnetic Optomechanical Crystals
*Run Fa Jonny Qiu1, Matthias Grammer2, Sebastian Sailler5, Sebastian T. B. Goennenwein5, Michaela Lammel5, Jeffrey McCallum6, Hans Huebl2,3, Eva Weig1,3,4 (1. TUM School of Computation, Information and Technology, Technical University of Munich (Germany), 2. Walther-Meißner-Institut, Bayerische Akademie der Wissenschaften (Germany), 3. Munich Center of Quantum Science and Technology (MCQST) (Germany), 4. TUM Center for QuantumEngineering (ZQE) (Germany), 5. Department of Physics, University of Konstanz (Germany), 6. School of Physics, University of Melbourne, Parkville (Australia))
[P-038]Two-Level System Nanomechanics in the Blue-Detuned Regime
*Guillaume Bertel1, Clément Dutreix1, Fabio Pistolesi1 (1. Laboratoire Ondes et Matière d'Aquitaine, UMR5798 (France))
[P-040]Optomechanical Oscillator Network for Neuromorphic Computation
*Andrea Gaspari1, Rémi Avriller1, Fabio Pistolesi1 (1. LOMA (France))
[P-042]Multi-Mode Internal Resonance in Nanoresonators Enabled by Soft Clamping
*Zichao Li1, Minxing Xu1,2, Richard Norte1,2, Alejandro M. Aragón1, Peter G. Steeneken1,2, Farbod Alijani1 (1. Department of Precision and Microsystems Engineering, Delft University of Technology (Netherlands), 2. Kavli Institute of Nanoscience, Delft University of Technology (Netherlands))
[P-044]Four-Wave Mixing and Three-Wave Mixing Modes in Graphene Nanomechanical Resonator
*Guo-Sheng Lei1, Xiang-Xiang Song1, Zhuo-Zhi Zhang1, Guo-Ping Guo1 (1. University of Science and Technology of China (China))
[P-046]Magnon-Phonon Coupling in Multimodal Cavity Magnomechanics
*Daiki Hatanaka1, Motoki Asano1, Megumi Kurosu1, Yoshitaka Taniyasu1, Hajime Okamoto1, Hiroshi Yamaguchi1 (1. NTT Basic Research Laboratories (Japan))
[P-050]Effect of Magnetic Anisotropy on Surface Acoustic Wave Spin Wave Coupling in LiNbO3
*Minwoo Yu1, Moojune Song2, Minseok Kang2, Mujin You2, Yunyoung Hwnag3, Min Gyu Albert park2, Byong-Guk Park2, Kab-Jin Kim2, Junho Suh1 (1. Pohang University of Science and Technology (Korea), 2. Korea Advanced Institute of Science and Technology (Korea), 3. Institute of Innovation for Future Army (Korea))
[P-052]Simultaneous generation and distribution of mechanical noise squeezing
*Mungyeong Jeong1, Junho Suh1 (1. Pohang University of Science and Technology (POSTECH) (Korea))
[P-054]Time-Domain Dynamics Measurement of Micromechanical Resonators with an Ultrawide Dynamic Range
Jungwon Kim1, Yongjin Na1, *Hyoungsu Choi1, Jihoon Baek1, Junho Suh2 (1. Korea Advanced Institute of Science and Technology (KAIST) (Korea), 2. Pohang University of Science and Technology (Korea))
[P-056]Chalcogenide nano-optomechanical phase change metasurface
Ding Li1, Abbas Sheikh Ansari2, Avik Mandal2, Behrad Gholipour2, Xin Zhou3, *Jun-Yu (Bruce) Ou1 (1. School of Physics and Astronomy, University of Southampton (UK), 2. Nanoscale Optics Lab, Department of Electrical and Computer, University of Alberta (Canada), 3. Univ. Lille, CNRS, Centrale Lille, Univ. Polytechnique Hauts-de-France (France))
[P-058]First-principles Study on Topologically Protected Phononic States and Phonon-assisted Electron Transfer in Multilayer 2D Materials
*Masaaki Misawa1, Kosuke Takahashi 2, Kenji Tsuruta2 (1. Fukuoka Institute of Technology (Japan), 2. Okayama University (Japan))
[P-060]Membrane Resonators as a Platform for Pressure Sensing
*Georgios Markas1,2, Fons van der Laan1,2, Harmen Smedes1,3, Jin Chang1,3, Simon Gröblacher1,3, Ewold Verhagen1,2, Letizia Catalini1,2 (1. QSTeM, Testbed for Mechanical Quantum Sensing (Netherlands), 2. Center for Nanophotonics, AMOLF (Netherlands), 3. Kavli Institute of Nanoscience, Delft University of Technology (Netherlands))
[P-062]Phase-Flip Rate in a Biased Parametric Oscillator
*Mark Dykman1, Daniel K. J. Boness2, Wolfgang Belzig2 (1. Michigan State University (United States of America), 2. University of Konstanz (Germany))
[P-064]Non-Gaussian Quantum States in a Mechanical Resonator
*Max-Emanuel Richard Kern1, Stefano Marti1, Quazi Rumman Rahman2, Igor Kladarić1, Radim Filip3, Yiwen Chu1, Matteo Fadel1 (1. ETH Zurich (Switzerland), 2. Yale University (United States of America), 3. Palacký University (Czech Republic))
[P-066]Interference in Double Quantum Dot with Oscillating Energy Level
*Miyu Umebayashi1, Mikio Eto1 (1. Keio University (Japan))
[P-068]Suspended Silicon Nitride (Si3N4) Resonators Using XeF2 Dry Etching
*Awse Salha1, Alexandre Barbosa1, Pritwish Agarwal1, Kazuki Bessho1, Nils Johan Engelsen1 (1. Chalmers University of Technology (Sweden))
[P-070]Cryogenic Setup for Millimeter Wave Quantum Opto/Electromechanics
*Yuma Okazaki1, Nobu-Hisa Kaneko1 (1. National Institute of Advanced Industrial Science and Technology (Japan))
[P-072]Optomechanical Method for Mass and Stiffness Calibration in Nanomechanical Resonators
*Alberto Martín-Pérez1, Farbod Alijani1, Peter Steeneken1 (1. TU Delft (Netherlands))
[P-074]Thermally Robust Release-Free Optomechanical Crystals
*Johan Kolvik1, Paul Burger1, Joey Frey1, Mads B. Kristensen1, Raphaël Van Laer1 (1. Chalmers University of Technology (Sweden))
[P-076]Spiking on-chip electro-optomechanical oscillator
*Gregorio Beltramo1,2, Robert Horvath1, Sylvain Berbay1, Remy Braive1,2,3 (1. C2N, CNRS - Université Paris-Saclay (France), 2. Université Paris-Cité (France), 3. Institut Universitaire de France (France))
[P-078]Detection of Nanoplastics Using Nanoelectromechanical System Fourier Transform Infrared Spectroscopy (NEMS-FTIR)
*Jelena Timarac Popović1,2, Johannes Hiesberger1,2, Eldira Šesto1, Ariane Giesriegl1, Niklas Luhmann2, Josiane P. Lafleur2, Silvan Schmid1,2 (1. TU Wien, Institute of Sensor and Actuator Systems (Austria), 2. Invisible-Light Labs GmbH (Austria))
[P-080]Intrinsic Q-factor Enhancement with Chemical and Physical Treatments in Silicon Nitride Resonators
*Nicola Cavalleri1, Ariane Giesriegl1, Robert Grayson West1, Silvan Schmid1 (1. TU Wien (Austria))
[P-082]Extracting Nanoscale Vibrations: A Refined Approach via
Electrical Mixing
*Sudarsan Majumder1, Soumya Dutta1 (1. Indian Institute of Technology Madras (India))
[P-084]Density-Modulated Phononic-Engineered Membranes for Room-Temperature Quantum Optomechanics
*Alessio Zicoschi1 (1. EPFL (Switzerland))
[P-086]Towards Demonstrating Error Correction in Nanomechanical Systems
*Xiaoya Jin1, Christopher G. Baker1, Erick Romero1, Nishta Arora1, Nicolas P. Mauranyapin1, Timothy M. F. Hirsch1, Glen I. Harris1, Warwick P. Bowen1 (1. The University of Queensland (Australia))
[P-088]Nanomechanical resonators in strained, piezoelectric AlN
Anastasiia Ciers1, Alexander Jung1, Joachim Ciers1, Laurentius Radit Nindito1, *Hannes Pfeifer1, Armin Dadgar2, André Strittmatter2, Witlef Wieczorek1 (1. Department of Microtechnology and Nanoscience (MC2), Chalmers University of Technology (Sweden), 2. Institute of Physics, Otto-von-Guericke-University Magdeburg (Germany))
[P-090]Nonlinear Energy Transfer and Frequency Comb Generation in Coupled Silicon nitride Drum Resonators
*Loic Flis1, Xin Zhou1 (1. CNRS, IEMN (France))
[P-092]Visualized Internal Resonance in MEMS Resonators Observed by Stroboscopic DIC Microscopy
*Yuko Terasawa1, Qian Liu1, Ya Zhang1 (1. Inst. of Eng., Tokyo Univ. of Agri. & Techno. (Japan))
[P-094]Phonon Thermometry for Searches of New Physics
*Andraz Omahen1, Simon Storz1, Marius Bild1, Dario Scheiwiller1, Matteo Fadel1, Yiwen Chu1 (1. ETH Zürich (Switzerland))
[P-096]Nonreciprocal Diffraction of Surface Acoustic Waves by Magnetoelastic Nanograting
*Yoichi Nii1, Kei Yamamoto2,3, Masaki Kanno1, Sadamichi Maekawa3,2, Yoshinori Onose1 (1. Tohoku University (Japan), 2. Japan Atomic Energy Agency (Japan), 3. RIKEN (Japan))
[P-098]Investigation of Surface Acoustic Waves Scattering in Magnetic Honeycomb Phononic Crystals
*Yuga Yoh1, Kazuto Yamanoi1, Yukio Nozaki1,2 (1. Department of Physics, Keio University (Japan), 2. CSRN, Keio Univ. (Japan))
[P-100]Modulating Resonance Mode Sequencing in Nanomechanical Resonators
*Luming Wang1, Jiaqi Wu1, Jiankai Zhu1, Zenghui Wang1 (1. University of Electronic Science and Technology of China (China))
[P-102]Suspended silicon single-hole transistors
*Zhuo-Zhi Zhang1 (1. University of Science and Technology of China (China))