Session Details

[P]Poster Session

Tue. Jun 3, 2025 5:30 PM - 7:30 PM JST
Tue. Jun 3, 2025 8:30 AM - 10:30 AM UTC
Poster Venue(1st Floor)

[P-001]The potential application of 3D biogenic silica-based nanomechanical early detection of Tilletia indica

*Abhishek Kumar Bhardwaj1 (1. Amity University Madhya Pradesh (India))

[P-003]Exploring Non–linear Carbon Nanotube Near The Quantum Ground State Via Charge Sensor

*Marta Cagetti1, Stefan Forsnter1, Roger Tormo-Queralt1, Victor Roman-Rodriguez1, Elsa Vazquez Rodriguez1, Fabio Pistolesi2, David Czaplewki3 (1. ICFO (Spain), 2. CNRS (France), 3. Argonne National Laboratory (United States of America))

[P-005]Towards Quantum Noise Squeezing of Ultracoherent Soft-Clamped Membrane Resonators

*Aida Mashaal1, Thibault Capelle1, Clinton Potts1, Andrea Ranfagni 1, Eric Langman1, Albert Schliesser 1 (1. University of Copenhagen (Denmark))

[P-007]Towards Nuclear Spin Detection with High-frequency Mechanical Resonators

*Diego Aldo Visani1, Letizia Catalini1, Vincent Dumont1, Martijn Stallen1, Thomas Gisler1, Javier del Pino2,3, Christian Lukas Degen1, Alexander Eichler1 (1. Laboratory for Solid State Physics, ETH Zurich (Switzerland), 2. Institute for Theoretical Physics, ETH Zurich (Switzerland), 3. Department of Physics, University of Konstanz, (Germany))

[P-009]Towards Membrane-Based Single-Protein Mass Spectrometry

*Geena Benga1, Vincent Dumont1, Bhavesh Kharbanda1, Wei Wang1, Antonius Armanious1, Leopold Konzett2, Albert Schliesser2, Silvan Schmid3, Christian Degen1, Alexander Eichler1 (1. ETH Zurich (Switzerland), 2. University of Copenhagen (Denmark), 3. TU Wien (Austria))

[P-011]Frequency Fluctuations in Nanomechanical Resonators due to Quantum Defects

*Matthew Peter Maksymowych1, Mert Yuksel2, Oliver Andrew Hitchcock3, Nathan Richard Lee1, Kaveh Gabriel Pezeshki1, Felix Michael Mayor1, Wentao Jiang1, Michael Lee Roukes2,4, Amir Hossein Safavi-Naeini1 (1. Department of Applied Physics and Ginzton Laboratory, Stanford University (United States of America), 2. Department of Applied Physics, California Institute of Technology (United States of America), 3. Department of Physics, Stanford University (United States of America), 4. Department of Physics, Department of Bioengineering and the Kavli Nanoscience Institute, California Institute of Technology (United States of America))

[P-013]Progress Towards Real-Time Phonon Measurements in Integrated Quantum Acoustic Systems

*Erik Szakiel1, Takuma Makihara1, Amir Safavi-Naeini1 (1. Stanford University (United States of America))

[P-015]Tuning the Duffing Response of a Carbon Nanotube Nanomechanical Resonator

*Akong Loh1, Furkan Özyigit1, Niklas Hüttner1, Andreas K. Hüttel1 (1. University of Regensburg (Germany))

[P-017]Deep Squeezing of Fluctuations in Parametrically Driven Resonators with Added Noise

*Adriano A Batista1, Raoni S. Moreira2, Antonio A. Lisboa de Souza3 (1. Universidade Federal de Campina Grande (Brazil), 2. Universidade Estadual da Paraíba (Brazil), 3. Universidade Federal da Paraíba (Brazil))

[P-019]Magnetic Field Modulation of Phononic Circuits with Magnetic Film

*Ryo Sasaki1, Rekishu Yamazaki2, Yuya Yamaguchi3, Atsushi Noguchi1,4,5 (1. RIKEN RQC (Japan), 2. ICU (Japan), 3. NICT (Japan), 4. KIS UTokyo (Japan), 5. InaRIS (Japan))

[P-021]Optoacoustic Strong Coupling in the Continuum

*Laura Blazquez Martinez1,2, Changlong Zhu1,2, Birgit Stiller1,2,3 (1. Max Planck Institute for the Science of Light (Germany), 2. Friedrich-Alexander Universität Erlangen-Nürnberg (Germany), 3. Institute of Photonics, Leibniz Universität Hannover (Germany))

[P-023]Phase Analysis of Hypersonic Surface Acoustic Wave Propagation by Laser Doppler Vibrometer

*Omid Reza Ranjbar Naeini1, Tapani Makkonen2, Oili Ylivaara2, Jouni Ahopelto2, Clivia Sotomayor Torres1 (1. INL, International Iberian Nanotechnology Laboratory (Portugal), 2. VTT Technical Research Centre of Finland (Finland))

[P-025]Ultrahigh-Q Torsional Nanomechanics

*Atkin Hyatt1, Aman Agrawal1, Christian Pluchar1, Charles Condos1, Dalziel Wilson1 (1. University of Arizona (United States of America))

[P-027]Exploring regenerative coupling in phononic crystals for room temperature quantum optomechanics

*Daniel Ramos1, Lukas Max Weituschat1, Irene Castro1, Irene Colomar1, Christer Everly2, Pablo Aitor Postigo2 (1. CSIC (Spain), 2. University of Rocherster (United States of America))

[P-031]A hybrid graphene-siliconnitride nanomembrane as a versatile and ultra-widely tunable mechanical device

*FAN YANG1,2, Mengqi Fu1, Elke Scheer1, Robert H Blick3 (1. University of Konstanz (Germany), 2. Dynamic Precision Micro and Nano Sensing Technology Research Institute, Chongqing (China), 3. Universitaet Hamburg (Germany))

[P-033]A non-linear carbon nanotube mechanical resonator near the quantum ground state of motion

*Roger Tormo Queralt Tormo Queralt1, Adrian Bachtold1, Christoffer Bo Moller1, Stefan Forstner1, Daviz Czaplewski2, Andrew Cleland4, Fabio Pistolesi3, Victor Roman Rodríguez1, Eneko Mateos1, Marta Cagetti1, Elsa Vazquez Rodriguez1 (1. The Institute of Photonic Sciences, ICFO (Barelona) (Spain), 2. Argonne National Laboratory (Chicago) (United States of America), 3. Université de Bordeaux (Bordeaux) (France), 4. Pritzker School of Molecular Engineering (Chicago) (United States of America))

[P-035]Monolithic 4H-SiC Nanomechanical Resonators with High Intrinsic Quality Factors

André Hochreiter1, Philipp Bredol2, *Felix David2, Berke Demiralp2, Heiko B. Weber1, Eva M. Weig2,3,4 (1. Friedrich-Alexander-University of Erlangen-Nürnberg, Chair of Applied Physics (Germany), 2. Technical University of Munich, Chair of Nano and Quantum Sensors (Germany), 3. Munich Center for Quantum Science and Technology (MCQST) (Germany), 4. TUM Center for Quantum Engineering (ZQE) (Germany))

[P-037]Controlling Photothermal Forces in Nano-Optomechanical Resonators Through Strain Engineering

*Menno Jansen1, Cauê Kersul2, Thiago Mayer Alegre2, Ewold Verhagen1 (1. AMOLF (Netherlands), 2. University of Campinas (Brazil))

[P-039]Exploring Quantum-to-Classical Transitions in Carbon Nanotube-Quantum Dot Hybrid Systems

*Janine C. Franz1, Fabio Pistolesi1 (1. Universite de Bordeaux (France))

[P-041]Intermodulation-based non-linear parameter estimation of nanomechanical resonators

*Chris Wattjes1, Peter Steeneken1, Farbod Alijani1 (1. TU Delft (Netherlands))

[P-043]Mechanical clocks with atomic clock stability

Jintark Kim1, Jie Yan1, Jiawei Yang2, Rakibul Islam1, Shrey Verma2, Manaka Gomi2, Jiheng Jing1, Karim Elmeligy1, Gabrielle Vukasin2, Ryan Kwon2, Saurabh Saxena3, Pavan Hanumolu1, Thomas W Kenny2, *Gaurav Bahl1 (1. University of Illinois at Urbana-Champaign (Armenia), 2. Stanford University (Armenia), 3. Indian Institute of Technology (India))

[P-045]Mid/near-infrared dual-band cavity towards control of molecule-vibrational polaritons using optomechanical scheme

*Ryoko Sakuma1, Motoki Asano1, Koji Sakai1,2, Hiroshi Yamaguchi1, Hajime Okamoto1 (1. NTT Basic Research Laboratories, NTT Corporation (Japan), 2. Bio-Medical Informatics Research Center, NTT Corporation (Japan))

[P-047]Broadband Thermal Motion Interference in Membrane-in-middle Optomechanical System

*Jiaxing Ma1, Vincent Dumont2, Jack Sankey1 (1. McGill University (Canada), 2. ETH Zurich (Switzerland))

[P-049]Integrated Nanoscale Bulk Acoustic Wave Transducer for Efficient Electromechanical Excitation

Tapani Makkonen1, Oili Ylivaara1, Sara Pourjamal1, *Jouni Ahopelto1 (1. VTT Technical Research Centre of Finland Ltd (Finland))

[P-051]Electro-Acoustic Effect in SrTiO3 Surface Acoustic Wave Resonator

*Ki-Ryang Park1, Junho Suh1 (1. POSTECH (Korea))

[P-053]Nanomechanical Resonators for Transition Metal Oxide Membrane Optomechanics

*Yongjoo Jo1, Junho Suh1 (1. Pohang University of Science and Technology (POSTECH) (Korea))

[P-055]Fabrication of a Drumhead Mechanical Resonator Using Superconducting Niobium Nitride

*Changjoo Lee1, Junho Suh1 (1. Pohang University of Science and Technology (Korea))

[P-057]The Multimodal Nonlinear Dynamics of Nanobeams

*Mark Paul1, Nathan Welles1, Monan Ma2, Kamil Ekinci2 (1. Virginia Tech (United States of America), 2. Boston University (United States of America))

[P-059]Linewidth and Energy Measurements: Investigating the Intrinsic Uncertainty in Different Parameters Estimation Methods

*Fons van der Laan1,2, Giorgos Markas1,2, Harmen Smedes1,3, Jin Chang1,3, Simon Gröblacher1,3, Ewold Verhagen1,2, Letizia Catalini1,2 (1. QSTeM (Netherlands), 2. AMOLF (Netherlands), 3. TU Delft (Netherlands))

[P-061]Mechanical Mode Imaging and Large-Frequency Tunability of
hBN/Si3N4 and CrSBr/Si3N4 Hybrid Resonator

*Aris Lafranca1 (1. University of Basel (Switzerland))

[P-063]Dissipative Coupling of Magnons and Surface Acoustic Wave Phonons in Ni/Ru/Ni Synthetic Antiferromagnets

*Yasuhiro Todaka1, Motoki Asano2, Masashi Kawaguchi1, Daiki Hatanaka2, Masamitsu Hayashi1 (1. The University of Tokyo (Japan), 2. NTT Basic Research Laboratories (Japan))

[P-065]Nonlinear Response of Piezoelectric Phononic Crystal Nanomechanical Resonators at Low Temperatures

*Mert Yuksel1, Matthew Maksymowych2, Oliver Hitchcock2, Amir Safavi-Naeini2, Michael Roukes1 (1. California Institute of Technology (United States of America), 2. Stanford University (United States of America))

[P-067]Highly efficient multimode nonlinear intermodal coupling in micromechanical square-membrane resonator at room temperature

*Eun Mi Kim1, Kyoung Jun Moon1, Chang Kyun Ha1, Myeong Soo Kang1 (1. Korea Advanced Institute of Science and Technology (Korea))

[P-069]Intrinsic Frequency Noise Cancellation in High-Q Nanomechanical Strings using Cavity Optomechanics

*Bhavesh Kharbanda1, Amirali Arabmoheghi2, Letizia Catalini1,4, Mohommad Bereyhi2, Alessio Zicoschi2, Tobias Kippenberg2, Christian Degen1, Alexander Eichler1, Nils Engelsen3,2 (1. ETH Zürich (Switzerland), 2. EPFL (Switzerland), 3. Chalmers University (Sweden), 4. AMOLF (Netherlands))

[P-071]Strain-Engineered Nanowrinkle Waveguides in Graphene for Dirac Fermion Transport

Seunghyun Jun3, *Myung-Chul Jung1,2, Nojoon Myoung1,2 (1. Department of Physics Education, Chosun University (Korea), 2. Institute of Well-Aging Medicare & CSU G-LAMP Project Group, Chosun University (Korea), 3. Department of Science Education, Chosun University (Korea))

[P-073]Quantum-Enhanced Nanomechanical System Utilizing Magnetic Levitation for Precise Sensing

*Tao Wang1, Joel K Jose1, Vishwanath Singh1, Andrea Vinante2,3, Ping Koy Lam1,4,5 (1. Agency for Science, Technology and Research (A*STAR) (Singapore), 2. Istituto di Fotonica e Nanotecnologie IFN--CNR (Italy), 3. Fondazione Bruno Kessler (FBK) (Italy), 4. Centre for Quantum Technologies (Singapore), 5. Australian National University (Australia))

[P-075]Towards release-free electromechanical crystals for quantum
microwave-optics transduction

*Joey Frey1, Paul Burger1, Johan Kolvik1, Trond Haug1, Raphaël Van Laer1 (1. Chalmers University of Technology (Sweden))

[P-077]Chaos in Red-Detuned Driven Coupled Nanoelectromechanical
Graphene Resonator

*Javed Akhter Mondal1, Ateesh Rathi1, Arnab Sarkar1, Ryan J.T. Nicholl2, Kirril I. Bolotin3, Saikat Ghosh1 (1. Department of Physics, Indian Institute of Technology Kanpur (India), 2. Department of Physics and Astronomy, Vanderbilt University (United States of America), 3. Department of Physics, Freie Universitat Berlin (Germany))

[P-079]Nanomechanical Photothermal Scanning Microscopy and
Spectroscopy

*Thomas Michael Tropper1, Ariane Giesriegl1, Nicola Cavalleri1, Robert West1, Kostas Kanellopulos1, Johannes Hiesberger1, Silvan Schmid1 (1. TU Wien (Austria))

[P-081]Bandwidth-tunable Telecom Single Photons Enabled by Low-noise Optomechanical Transduction

*Alexander Rolf Korsch1,2, Liu Chen1, Caue Moreno Kersul3, Rodrigo Benevides3, Yong Yu1, Thiago P. Mayer Alegre3, Simon Gröblacher1 (1. TU Delft (Netherlands), 2. Westlake University (China), 3. Universidade Estadual de Campinas (Brazil))

[P-083]Towards higher qubit-phonon coupling in a flip-chip architecture transmon-HBAR system

*Evgenii Guzovskii1, Marco Scigliuzzo1, Aprameyan Desikan1, Tobias J. Kippenberg1 (1. Swiss Federal Institute of Technology Lausanne (EPFL) (Switzerland))

[P-085]Dispersion control in a phononic waveguide

*Timothy Hirsch1, Nishta Arora1, Xiaoya Jin1, Nicolas Mauranyapin1, Christopher Baker1, Warwick Bowen1 (1. The University of Queensland (Australia))

[P-087]Slot-Mode Optomechanical System for Mass Sensing

*Cheeru Thrideep1, Miroslav Belov2, Wayne K Hiebert1,2 (1. University of Alberta (Canada), 2. Quantum and Nanotechnology Research Centre, National Research Council Canada, 11421 Saskatchewan Drive, Edmonton, Alberta T6G 2M9 (Canada))

[P-089]Demonstration of Reservoir Computing in a Double-Drum
Resonator through Sideband Pumping Approach

*Theresa Farah1, Pierre Laly1, Bahram Djafari-Rouhani1, Yan Pennec1, Xin Zhou1 (1. CNRS, IEMN (France))

[P-091]Mapping the strain distribution in MEMS/NEMS devices by stroboscopic DIC microscopy

*Qian Liu1, Yuko Terasawa1, Mirai Iimori1, Ya Zhang1 (1. Tokyo University of Agriculture and Technology (Japan))

[P-093]Terahertz Quasi-MIM Absorber for Integrating with Thin-Film MEMS Bolometers

*Zihao Zhao1, Kazuho Harada1, Chao Li1, Isao Morohashi2, Ya Zhang1 (1. Tokyo University of Agriculture and Technology (Japan), 2. National Institute of Information and Communications Technology (Japan))

[P-095]Design of an Optomechanical Microwave-to-Optics Transducer
Using Bulk Acoustic Wave Resonators

Tom Schatteburg1, Maxwell Drimmer1, Hugo Michiel Doeleman1, Rodrigo Benevides1, *Samuel Pautrel1, Yiwen Chu1 (1. Department of Physics, ETH Zürich and Quantum Center, ETH Zürich (Switzerland))

[P-097]Mapping of magnon-phonon interaction intensity using multiple overtone surface acoustic waves

*Kazuto Yamanoi1, Yukio Nozaki1,2 (1. Keio university (Japan), 2. CSRN (Japan))

[P-099]Intrinsic Resonance Behavior of Nanomechanical Resonator with Nonlinear off-Resonance Pumping

*Bo Xu1, Zenghui Wang1 (1. University of Electronic Science and Technology of China (China))

[P-101]Tunable Opto-Mechanical Responsivity in Two-Dimensional Nanoelectromechanical Resonators

*Jiankai Zhu1, Bo Xu1, Luming Wang1, Zenghui Wang1 (1. University of Electronic Science and Technology of China (China))