Nomura laboratory

2024

  • M. Nomura (Invited), and R. Yanagisawa, “Si-based Planar-type Thermoelectric Generators,” TMS2024 153rd Annual Meeting & Exhibition, Orlando, USA (2024).
  • M. Nomura (Invited) “Hydrodynamic heat transfer in graphite micro ribbons,” SNU-IIS UTokyo Joint Workshop on Innovative Micro/Nano Systems, Invited Talk 1, Tokyo (2024).
  • B. Kim, H. Kurokawa, K. Sakai, K. Koshino, H . Kosaka, M. Nomura, “Coherent microwave-to-optical conversion in diamond optomechanical crystal cavity with a color center,”SNU-IIS UTokyo Joint Workshop on Innovative Micro/Nano Systems, Tokyo, Japan (2024)
 

2023

  • M. Nomura (Invited), “Field experiment of planar-type Si thermoelectric generator,”International Workshop on Recent Advances in Thermoelectric Materials & Device Development, Tue-VI-2, Tsukuba, Japan (2023)
  • M. Nomura (Keynote), R. Yanagisawa, T. Sujii, T. Mori, P. Ruther, and O. Paul, “Planar-type Si thermoelectric generator for 100 μW harvesting,” MRM2023 IUMRS-ICA2023, B1-O201-01, Kyoto, Japan (2023).
  • J. Ordonez-Miranda, R. Anufriev, M. Nomura, and S. Volz, “Temporally modulated thermoelectricity,” MRM2023 IUMRS-ICA2023, B1-L304-0, Kyoto, Japan (2023).
  • S. Volz (Keynote), “Polaritons Thermal Radiation,”QMEMS, Hsinchu, Taiwan (2023)
  • S. Volz (Keynote), “Phonon Polaritons Thermal Radiation,”NMHTE, Taichung (2023)
  • B. Kim, H. Kurokawa, K. Sakai, K. Koshino, H. Kosaka, and M. Nomura, “Coherent microwave-to-optical quantum transduction using diamond optomechanical crystals with a color center,” Quantum Innovation 2023, PO-CC-23, Tokyo, Japan (2023).
  • M. Nomura, “Phononic applications: Thermoelectrics, thermal management, and quantum Transducers,” IEMN-LIMMS Workshop, 1-5, Lille, France (2023).
  • M. Nomura (Keynote), “Enhancement of Thermal Conductance in Isotopically Purified Graphite by Phonon Hydrodynamic Behavior,” 5th International Conference on Nanomaterials, Materials and Manufacturing Engineering (ICNMM), 2, Tokyo, Japan (2023).
  • R. Yanagisawa and M. Nomura, “Thermal Design of Planar-type Nano Si Thermoelectric Generator,” International Conference on Solid State Devices and Materials, SO-PS-06-09, Nagoya (2023).
  • B. Kim,L. Jalabert, J. Ordonez-Miranda, S. Tachikawa, M. Coral, Y. Wu, R. Anufriev, M. Nomura, and S. Volz “Heat transfer enhanced by phonon-polaritons in nanofilm systems,” 10th US-Japan Joint Seminar on Nanoscale Transport Phenomena, P-15, San Diego, USA (2023).
  • X. Huang, Y. Guo, Y. Wu, S. Masubuchi, K. Watanabe, T. Taniguchi, Z. Zhang, S. Volz, T. Machida, and M. Nomura (Invited), “Hydrodynamic heat transport in isotopically purified graphite,” 10th US-Japan Joint Seminar on Nanoscale Transport Phenomena, Mo-I-2, San Diego, USA (2023).
  • S. Volz (Invited), “Effect of time coherence on thermal conduction in complex, amorphous, low-dimensional materials,” GDR NAME, Paris, France (2023)
  • J. Ordonez-Miranda, Y. Kosevich, M. Nomura, S. Volz, “Ultrafast Plasmon Heat Conduction along Metallic Nanofilms,” GDR NAME, Paris, France (2023)
  • S. Volz, “Phonon Temporal Coherence in Heat Conduction,” Phonons 2023, Paris, France (2023)
  • X. Huang, Y. Guo, Y. Wu, S. Masubuchi, K. Watanabe, T. Taniguchi, Z. Zhang, S. Volz, T. Machida, and M. Nomura, “Rapid heat flow driven by collective phonons in 12C enriched sub-um graphite,” Phonons 2023, WE2-4, Paris, France (2023)
  • J. Ordonez-Miranda,R. Anufriev, M. Nomura, S. Volz (Invited), “Conductive Heat Shuttling Driven by Thermal Waves in VO2,” Phonons 2023, MO4, Paris, France (2023)
  • R. Anufriev, D. Singh, and M. Nomura (invited), “Ray phononics for thermal management in micro and nano-electronics,” IEEE-NANO 2023, MoGT6.2, Jeju, South Korea (2023)
  • J. Ordonez-Miranda, S. Volz, M. Nomura (Invited), “Super-Planckian Thermal Radiation of a Macroscopic Cavity Due to the In-plane Propagation of Polaritons,” PIERS, 2P5 Prague, Czech Republic (2023)
  • S. Volz (Invited), “Guided Resonant Modes Yield SuperPlanckian Radiation,” PIERS, Prague, Czech Republic (2023)
  • J. Ordonez-Miranda, Y. Kosevich, B. J. Lee, M. Nomura, S. Volz (Invited), “Plasmon Thermal Conductance and Thermal Conductivity of Metallic Nanofilms,” CLEO, JSVI-2.2, Munich, Germany (2023)
  • Nomura (Invited), “Advances in Si-based Planar-type Thermoelectric Generators,” ICMAT2023, A-1263, Singapore (2023).
  • J. Ordonez-Miranda,R. Anufriev, M. Nomura, S. Volz (Invited), “Thermoelectric Shuttling Driven by Thermal Waves,” ICMAT2023, A-1295, Singapore (2023)
  • R. Yanagisawa, S. Koike, P. Ruther, O. Paul, N. Tsujii, T. Mori, M. Nomura, “Development of autonomous sensor system with nano-phononic silicon thermoelectric harvester through environmental test,” ICT 2023, Seattle, USA (2023)
  • S. Koike, R. Yanagisawa, M. Kurosawa, R. Rajveer, N. Tsujii, T. Mori, and M. Nomura, “Fabrication and evaluation of a planar-type uni-leg SiGe thermoelectric generator,” ICT 2023, Seattle, USA (2023)
  • S. Volz (Invited), “Surface Polaritons Heat Carriers,” International Workshop on CNRS-Industry Collaborations (IWCIC), Tokyo (2023)
  • M. Nomura (Plenary), “Behavior of thermal phononis in contrast to photons,” Phononics2023, A3a-2, Manchester, UK (2023)
  • S. Volz (Keynote), “Temporal Coherence in Heat Conduction,” MSTP2023, Shenzhen, China (2023)
  • J. Ordonez-Miranda, R. Anufriev, M. Nomura, and S. Volz, “Net Heat Current at Zero Mean Temperature Gradient,” Phononics2023, A5a, Manchester, UK (2023)
  • Yanagisawa, P. Ruther, O. Paul, N. Tsujii, T. Mori, and M. Nomura, “Power enhancement of planar-type phononic silicon,” CSW2023, WeG4-2, Jeju, Korea (2023).
  • M. Nomura (Invited), “Photons help phonons: ultrafast thermal energy transport in SiN nanofilms,” International Conference on Nano-photonics and Nano-optoelectronics (ICNN2023), ICNN9-01, Yokohama, Japan (2023).
  • S. Volz, “SuperPlanckian Far-Field Phonon-Polaritons”, MRS Spring Meeting & Exhibits, SF03.05.02, San Francisco, USA (2023)
  • B. Kim, S. Tachikawa, L. Jalabert, J. Ordonez-Miranda, M. Coral, Y. Wu, R. Anufriev, S. Volz, and M. Nomura, “Radiative Thermal Diode Enabled by Guided-Modes of Surface Phonon-Polaritons in Silicon-Silica Heterostructures”, MRS Spring Meeting & Exhibits, SF03.06.02, San Francisco, USA (2023)
  • M. Nomura, R. Yanagisawa, P. Ruther, O. Paul, “High-Performance Planar-Type Nanophononic Si Thermoelectric Generator with a Double Cavity Structure”, MRS Spring Meeting & Exhibits, SF03.09.03, San Francisco, USA (2023)

2022

  • M. Nomura (Invited) “Power density enhancement by thermal design of a planar-type Si TEG,” Thermal Control, Unusual behaviors in electron and lattice thermal conductivity online workshop, Invited Talk 1, online (2022).
  • R. Yanagisawa, P. Ruther, O. Paul, N. Tsujii, T. Mori, and M. Nomura, “Planar-type nano-silicon thermoelectric generator over 100 uWcm-2″, 21st International Conference on Micro and Nanotechnology for Power Generation and Energy Conversion Applications (PowerMEMS 2022), W3B-01, Salt Lake City, USA (2022).
  • M. Nomura (Invited), “Planar-type double-cavity Si thermoelectric generators,” WPI-MANA International Symposium 2022, Day2-7-2, Tsukuba, Japan (2022).
  • J. Ordonez-Miranda, S. Volz, M. Nomura, “Heat propagation driven by surface electromagnetic waves”, NAMIS Marathon Workshop 2022, Hsinchu, Taiwan (2022).
  • Y. Ogawara, B. Kim, and M. Nomura, “Development of Two-dimensional Time-domain Thermoreflectance for Imaging of Microstructures”, NAMIS Marathon Workshop 2023, Session B-3, Hsinchu, Taiwan (2022).
  • S. Koike, R. Yanagisawa, M. Kurosawa, and M. Nomura, “Development of thermoelectric generators based on Silicon Germanium”, NAMIS Marathon Workshop 2022, Session B-2, Hsinchu, Taiwan (2022).
  • R. Yanagisawa, P. Ruther, O. Paul, and M. Nomura, “Planar-type thermoelectric generator with phononic nanostructures formed in a 1-um-thick Si membrane”, 34th Symposium on Phase Change Oriented Science (PCOS2022), 12, online (2022).
  • R. Anufriev(invited) , Y. Wu, S. Gluchko, S. Volz, and M. Nomura, “Ballistic phonon and thermal transport at nanoscale,” Plasmons and Vibrational Dynamics in Nanomaterials Seminar, Poznan, Poland (2022).
  • R. Yanagisawa, and M. Nomura, “Design of Planar-type Thermoelectric Generator with Polycrystalline Silicon Thin Film,” 2022 International Conference on Solid State Device and Material (SSDM2022), C-9-06, Chiba, Japan (2022).
  • M. Nomura (Invited), “Nanophonoic Si thermoelectric devices with phonon engineering,” IEEE International Nanodevices & Computing (INC) Conference 2022, online (2022).
  • S. Volz (Invited), “Surface Phonon-Polariton as Efficient Heat Carriers,” Photon, Phonon, and Electron Transitions in Coupled Nanoscale Systems 745. WE-Heraeus-Seminar, Bad Honnef, Germany (2022).
  • R. Anufriev, J. Ordonez-Miranda, Y. Wu, S. Volz, and M. Nomura, “Phonon mean free path in Si and SiC nanostructures linked to their thermal conductivity”, Photon, Phonon, and Electron Transitions in Coupled Nanoscale Systems 745. WE-Heraeus-Seminar, Bad Honnef, Germany (2022).
  • M. Nomura (Invited), and X. Huang, “Hydrodynamic phonon transport in graphite micro ribbons,” International Conference on Thermodynamics and Thermal Metamaterials 2022, A2-1, online (2022).
  • S. Volz (Plenary), “Controlling Thermal Radiation /in/ Micro and Nanosytem,” MIPE 2022, Nagoya, Japan (2022).
  • R. Anufriev (Invited), A. Ramiere, J. Maire, S. Gluchko, J. Ordonez-Miranda, S. Volz, and M. Nomura, “Ballistic heat conduction at nanoscale: demonstrations and applications,” Colloquium at Los Alamos National Laboratory, USA, online (2022).
  • M. Nomura (invited), J. Ordonez-Miranda, and R. Anufriev, “Thermal phonon mean free path analysis of semiconductor membranes,” META 2022, 3A6-3, online (2022).
  • S. Volz (invited), “How coherence is driving phonon heat conduction,” META 2022, 3A6-5, online (2022).
  • M. Nomura (Invited), “Heat conduction engineering in semiconductor films by phononic nanostructures,” The 6th A3 Metamaterials Forum, MA3, online (2022).
  • M. Nomura (Keynote), “Nanostructuring for heat flux engineering in Si nanofilms,” Global Experts Meet on Condensed Matter Physics, Day-3-1, online (2022).
  • S Volz (Plenary), “Surface Phonon-Polaritons Conduction and Radiation,” ICPPP21, Bled, Slovenia (2022).
  • R. Anufriev (Invited), A. Ramiere, J. Maire, S. Gluchko, J. Ordonez-Miranda, S. Volz, and M. Nomura, “Ballistic heat conduction at nanoscale: demonstrations and applications,” Telluride workshop: Thermal Transport at the Nanoscale, Telluride, USA (2022).
  • X. Huang, Y. Guo, Y. Wu, S. Masubuchi, K. Watanabe, T. Taniguchi, Z. Zhang, S. Volz, T. Machida, and M. Nomura , “Phonon Poiseuille flow in isotopically purified submicron graphite ribbons,” Compound Semiconductor Week 2022, Ann Arbor, USA (2022).
  • X. Huang, Y. Guo, Y. Wu, S. Masubuchi, K. Watanabe, T. Taniguchi, Z. Zhang, S. Volz, T. Machida, and M. Nomura, “Phonon hydrodynamic conduction facilitated with isotopic enrichment,” Nanoscale and Microscale Heat Transfer VII, S9.2, Palermo, Italy (2022).
  • M. Nomura, “Thermal phononics and photonics: similarity, difference, and hybridization,” Nanoscale and Microscale Heat Transfer VII, S5.2, Palermo, Italy (2022).
  • R. Anufriev, and M. Nomura, “Ray phononics for advanced heat flux manipulations in ballistic regime,” Nanoscale and Microscale Heat Transfer VII, P26, Palermo, Italy (2022).
  • R. Anufriev, Y. Wu, J. Ordonez-Miranda, and M. Nomura, “Nanoscale limit of the thermal conductivity in SiC membranes, nanowires, and phononic crystals,” Nanoscale and Microscale Heat Transfer VII, P.22, Palermo, Italy (2022) (2022).
  • Y. Guo, M. Nomura, S. Tachikawa, S. Volz, and J. Ordonez-Miranda, “Quantum of Thermal Conductance of Nanofilms due to Surface Phonon-Polaritons,” Nanoscale and Microscale Heat Transfer VII, P.77, Palermo, Italy (2022).
  • L. Jalabert, J. Ordonez-Miranda, S. Tachikawa, Y. Wu, R. Anufriev, M. Nomura and S. Volz, “Prototype of high-temperature vacuum prober from 300 K to 1200 K for continuous 3-omega thermal measurements,” MRS Spring Meeting and Exhibits, SF15.14.07, online (2022).
  • R. Anufriev, Y. Wu, J. Ordonez-Miranda, M. Nomura, “Phonon mean free path spectroscopy in Si and SiC nanomembranes in the 4 – 400 K range,” MRS Spring Meeting and Exhibits, SF15.05.03, Hawaii, USA (2022).
  • S. Volz (Invited), “Wavelet Analysis Unfolds Thermal Phonon Coherence,” MRS Spring Meeting and Exhibits, DS.03, Hawaii, USA (2022).
  • Y. Wu, J. Ordonez-Miranda, L. Jalabert, S. Tachikawa, R. Anufriev, S. Volz, M. Nomura, “Macroscale Ballistic Heat Conduction by Surface Phonon-Polaritons,” MRS Spring Meeting and Exhibits, SF15.05.02, Hawaii, USA (2022).
  • Y. Guo, M. Nomura, S. Tachikawa, S. Volz, J. Ordonez-Miranda, “Quantum of Thermal Conductance of Nanofilms due to Surface Phonon-Polaritons,” MRS Spring Meeting and Exhibits, SF15.05.01, Hawaii, USA (2022).
  • M. Nomura (Invited), “Nanostructured Si thermoelectric materials and devices,” The 5th International Conference on Materials Design and Applications, 16-3, online (2022).
  • M. Nomura (Invited), “Planar-type nano phononic Si energy harvesters,” TMS2022, online (2022).
  • S. Volz (invited), “How Coherence of Thermal Phonons Impacts Heat Transport,” APS Spring Meeting 2022, Chicago, USA (2022).
  • T.-H. Xiao, Z. Cheng, Z. Luo, A. Isozaki, K. Hiramatsu, T. Itoh, M. Nomura, S. Iwamoto, and K. Goda, “Chiral-field-enhanced Raman optical activity by a silicon nanodisk array,” SPIE Photonics West 2022, 11957-35 (2022).

2021

  • R. Yanagisawa, P. Ruther, O. Paul, and M. Nomura, “Development of planar-type thermoelectric generator with double cavity and silicon nanostructure,” NAMIS Marathon Workshop, B-6, online (2021).
  • T. Nawae, R. Yanagisawa and M. Nomura, “Investigation of high aspect ratio phononic crystal” NAMIS Marathon Workshop, C-10, online (2021).
  • S. Tachikawa, J. Ordonez-Miranda, Y. Wu, L. Jalabert, R. Anufriev, S. Volz, and M. Nomura, “Propagation of surface phonon-polaritons in the multilayer system,” NAMIS Marathon Workshop, C-11, online (2021).
  • Y. Wu, J. Ordonez-Miranda, L. Jalabert, S. Tachikawa, R. Anufriev, H. Fujita S. Volz, and M. Nomura, “Quasi-ballistic propagation of surface phonon-polaritons in dielectric thin films,” NAMIS Marathon Workshop, C-14, online (2021).
  • M. Nomura (Invited), “Advanced thermal transport control in semiconductors by nanostructuring,” POSTEC Korea, online (2021).
  • M. Nomura (Invited), “Planar-type nanophononic Si thermoelectric energy harvesters,” International Conference on Materials and Systems for Sustainability 2021, Area4, online (2021).
  • S. Koike, R. Yanagisawa, M. Kurosawa, and M. Nomura, “Design of a planar-type uni-leg SiGe thermoelectric generator,” International Conference on Materials and Systems for Sustainability 2021, 1142, online (2021).
  • M. Nomura and R. Anufriev (Invited), “Ray phononics: heat flux engineering by nanostructuring,” The 3rd IIS-MESA+ Workshop, 26-6, online (2021).
  • M. Nomura (Invited), “Phonon-engineered Si thermoelectric energy harvesting,” AMU/CNRS-IIS/UTokyo Energy Workshop, 2-1, online (2021).
  • R. Yanagisawa, P. Ruther, O. Paul, and M. Nomura, “Planar-type Si phononic crystal thermoelectric generator with a top cavity structure,” 1st Japan France Virtual Workshop on Thermoelectrics, 1B.04, online (2021).
  • E. Sido, R. Yanagisawa, S. Koike, and M. Nomura, “Design and Fabrication of world’s smallest uni-leg thermoelectric cooler,” VCT 2021, AS-O.2-09, online (2021).
  • Z. Zhang (Invited), Y. Guo, M. Bescond, J. Chen, S. Volz, M. Nomura, “Self-synchronization of Thermal phonons in a Charged Silicon Resonator System,” META 2021, the 11th International Conference on Metamaterials, Photonic Crystals and Plasmonics, Session 1A8, online (2021).
  • J. Ordonez-Miranda, Y. Guo, J. J. Alvarado-Gil, S. Volz, and M. Nomura, “Thermal Diode Based on the Spatiotemporal Modulation of Thermal Properties,” 27th International Workshop on Thermal Investigation of ICS and Systems, (2021).
  • M. Nomura (invited), Y. Wu, J. Ordonez-Miranda, R. Anufriev, and S. Volz, “Surface phonon polariton: the 4th heat carrier in SiN nanofilms,” CLEO®/Europe-EQEC 2021, JSI-4.1, online (2021)
  • Z. Zhang, Y. Guo, M. Nomura, J. Chen, and S. Volz “Generalized law of heat conduction including the intrinsic coherence of thermal phonons,” CLEO®/Europe-EQEC 2021, JSI-P.1, online (2021)
  • Y. Guo, Z. Zhang, M. Bescond, M. Nomura, and S. Volz, “Thermal boundary conductance of Si/Ge interface by anharmonic phonon non-equilibrium Green function formalism,” CLEO®/Europe-EQEC 2021, JSI-1.2, online (2021)
  • Y. Guo, Z. Zhang, M. Bescond, S. Xiong, M. Nomura, S. Volz, “Heat Transport at Si/Ge Interface by Anharmonic Phonon Non-Equilibrium Green Function Formalism,” 2021 Virtual MRS Spring Meeting & Exhibit, NM08.15.08: Late News, online (2021).
  • R. Anufriev, J. Ordonez-Miranda, M. Nomura, “Phonon Mean Free Path Spectroscopy in Semiconductor Membranes,” 2021 Virtual MRS Spring Meeting & Exhibit, NM08.11.02, online (2021).
  • R. Anufriev, M. Nomura, “Ray Phononics for Advanced Heat Flux Manipulations in Ballistic Regime,” 2021 Virtual MRS Spring Meeting & Exhibit, NM08.06.02, online (2021).
  • Z. Zhang, Y. Guo, M. Bescond, J. Chen, M. Nomura, and S. Volz, “Generalized Law of Heat Conduction Including the Intrinsic Coherence of Thermal Phonons,” 2021 Virtual MRS Spring Meeting & Exhibit, NM08.05.09: Late News, online (2021).
  • S. Tachikawa, J. Ordonez-Miranda, Y. Wu, L. Jalabert, R. Anufriev, S. Volz, M. Nomura, “Thickness Dependence of Surface Phonon-Polariton Propagation Length in SiO2/Si/SiO2 Structures,” 2021 Virtual MRS Spring Meeting & Exhibit, NM08.01.02: Late News, online (2021).
  • Y. Wu, J. Ordonez-Miranda, L. Jalabert, S. Tachikawa, R. Anufriev, S. Volz, M. Nomura, “Experimental Observation of Quasi-Ballistic Thermal Transport of Surface Phonon-Polaritons Over Hundreds of Micrometers,” 2021 Virtual MRS Spring Meeting & Exhibit, NM08.01.01: Late News, online (2021).
  • Y. Wu, J. Ordonez-Miranda, R. Anufriev, S. Volz, and M. Nomura (Keynote), “Heat Transfer in SiN Nanomembranes with Surface Phonon Polariton,” ICMDA 2021, Speech III, Chiba (2021).
  • Y. Wu, J. Ordonez-Miranda, S. Gluchko, R. Anufriev, D. De Sousa Meneses, L. Del Campo, S. Volz, M. Nomura, “Surface Phonon-Polaritons Enhance Thermal Conduction in SiN Nanomembranes,” NSF-JST Joint Workshop, Thermal Transport, Materials Informatics, and Quantum Computing, online (2021).
  • M. Nomura (Invited), “Impact of surface engineering in silicon film thermoelectrics,” TMS2021, Alloys and Compounds for Thermoelectric and Solar Cell Applications IX, 0400, online (2021).

2020

  • M. Nomura (Invited), Y. Wu, J. Ordonez-Miranda, R. Anufriev, and S. Volz, “Thermal energy transfer by surface phonon polaritons in SiN nanofilm,” The 9th IRP NextPV International Workshop, 27-1, online (2020).
  • X. Huang, S. Gluchko, R. Anufriev, S. Volz, M. Nomura, “Surface nanocones control the heat transport in silicon membrane,” The 2nd International Conference on Materials Science and Engineering, online (2020).
  • S. Koike, R. Yanagisawa, M. Kurosawa, M. Nomura, “Design of a Planar-type Uni-leg SiGe Thermoelectric Generator,” NAMIS Marathon Workshop, P-12, online (2020).
  • E. Sido, R. Yanagisawa, S. Koike, M. Nomura, “Design of Smallest SiGe Thermoelectric Cooler,” NAMIS Marathon Workshop, P-11, online (2020).
  • R. Yanagisawa, M. Nomura, “Development of Planar-type Silicon Thermoelectric Generator with Phononic Nano-patterning,” NAMIS Marathon Workshop, P-05, online (2020).
  • M. Nomura (Invited), “Fundamentals of heat transfer in nanostructures,” NAMIS Marathon Workshop, P-08, online (2020).
  • M. Nomura (Invited), “Thermal energy transfer by surface phonon polaritons in SiN nanofilm,” The 9th IRP NextPV International Workshop, 27-1, online (2020).
  • M. Nomura (Invited), “Thermal counterpart of optics,” ThermoMeta2020, A2, online (2020).
  • Z. Zhang, Y. Guo, M. Nomura, and S. Volz (Invited), “Natural coherence of thermal phonons,” ThermoMeta2020, A10, online (2020).
  • R. Anufriev, S. Gluchko, S. Volz, and M. Nomura (Invited), “Ballistic heat conduction in semiconductor nanowires,” International Summer School-Conference “Advanced Problems in Mechanics,” 82589822556-1610, St. Petersburg, Russia (2020).


2019

  • R. Anufriev, S. Gluchko, S. Volz, M. Nomura, “Ballistic heat conduction,” NAMIS Marathon Workshop, Session A-3, National Tsing Hua University, Taiwan (2019).
  • Y. Wu, J. Ordonez, S. Gluchko, R. Anufriev, S. Volz, M. Nomura, “Surface Phonon-Polaritons Enhance Thermal Conduction in SiN Nanomembranes” NAMIS Marathon Workshop, Session A-4, National Tsing Hua University, Taiwan (2019).
  • S. Tachikawa, L. Jalabert, J. Ordonez-Miranda, Y. Wu, R. Anufriev, S. Volz, M. Nomura, “Detection of in-plane Surface Phonon Polaritons,” NAMIS Marathon Workshop, Session A-7, National Tsing Hua University, Taiwan (2019).
  • S. Koike, M. Nomura, “Thermoelectric generators based on poly-Si and poly-SiGe membrane,” NAMIS Marathon Workshop, Session B-4, National Tsing Hua University, Taiwan (2019).
  • R. Anufriev, S. Gluchko, S. Tachikawa, Y. Nakayama, T. Kawamura, and M. Nomura, “Heat conduction below the amorphous limit in Si/SiO2 superlattices,” The workshop on phonon lifetime from disordered to complex systems, P3, Lyon, France (2019).
  • X. Huang, R. Yanagisawa, D. Ohori, S. Samugawa, and M. Nomura, “Effective thermal conductivity tuning in Si thin film by nanopillars,” The 2nd Pacific Rim Thermal Engineering Conference, PRTEC-24210, Hawaii, USA (2019).
  • Y. Wu, J. Ordonez-Miranda, S. Gluchko, R. Anufriev, S. Volz, and M. Nomura, “Thermal transport by surface phonon-polaritons in SiN nanomembranes,” International Symposium on Hybrid Quantum Systems 2019, Mon-P1-6, Matsue Japan (2019).
  • Y. Wu, J. Ordonez-Miranda, S. Gluchko, R. Anufriev, S. Volz, and M. Nomura, “Theoretical study of surface phonon-polaritons in SiN submicron films,” International Symposium on Hybrid Quantum Systems 2019, P27, Matsue Japan (2019).
  • R. Yanagisawa, Patrick Ruther, Oliver Paul, and M. Nomura, “Development of planar-type silicon thermoelectric energy harvester with phononic crystal nanostructures by nanoimprint lithography,” PowerMEMS, P3-3, Krakow, Poland,(2019).
  • M. Nomura and R. Yanagisawa (Invited), “Thermoelectric Si thin film with nanostructures,” Asian Advanced Materials Congress, Singapore (2019).
  • M. Nomura and R. Yanagisawa (Invited), “Power enhancement of planar-type Si thermoelectric devices by nanostructuring,” The 13th Pacific Rim Conference of Ceramic Societies (PACRIM13), Okinawa, Japan (2019).
  • Nomura (Invited), “Heat transfer in nanostructured Si and heat flux control technique,” International 3D Systems Integration Conference, C4L-B1, Sendai, Japan (2019).
  • R. Anufriev, S. Gluchko, S. Volz, and M. Nomura, “Length and temperature ranges of ballistic thermal conduction in serpentine silicon nanowires,” European materials research meeting, Warsaw, Poland (2019).
  • R. Anufriev, J. Ordonez-Miranda, M. Nomura “Probing phonon mean free path in silicon membranes,” European materials research meeting, T.P.3, Warsaw, Poland (2019).
  • R. Anufriev and M. Nomura (Invited), “Ballistic thermal transport in silicon nanowires,” Nanowire week, Pisa, Italy (2019).
  • M. Nomura, X. Huang, A. George, R. Yanagisawa, S. Gluchko, R. Anufriev, and S. Volz, “Enhancement of thermoelectric performance of Si films by surface nanostructuring,” XXVIII International Materials Research Congress, SD7-O034, Mexico (2019).
  • M. Nomura, A. George, R. Yanagisawa, N. Tsujii, T. Mori, S. Volz, and R. Anufriev, “Planar-type Si thermoelectric energy harvesters with ultrathin Al films,” EDISON21, TuO-01, Nara, Japan (2019).
  • R. Anufriev, S. Gluchko, S. Volz, and M. Nomura, “Ballistic thermal transport in silicon nanowires of different shapes, lengths, and temperatures,” EDISON21, MoP-10, Nara, Japan (2019).
  • X. Huang, S. Gluchko, R. Anufriev, S. Volz, and M. Nomura, “Thermal Conductivity Reduction in Silicon Thin Film with Nanocones,” EDISON21, TuP-10, Nara, Japan (2019).
  • M. Nomura (Invited), “Phononics learns photonics for heat transport control,” Wed-3, Conference on Nanophononics, Bridging Statistical Physics, Molecular Modeling and Experiments, Trieste, Italy (2019).
  • M. Nomura (Invited), “Phononics learns photonics,” JSIV-1.2, CLEO/EUROPE-EQEC 2019, Munich, Germany (2019).
  • R. Anufriev and M. Nomura (Invited), “Time-Domain Thermoreflectance for Thermal Characterization of Nanostructures,” 20th International Conference on Photoacoustic and Photothermal Phenomena, Moscow (2019).
  • R. Anufriev and M. Nomura, “Coherent Control of Phonon and Thermal Conduction in Silicon Nanowires with Periodic Wings,” FQMD2019, P-17, Tokyo (2019).
  • Y. Wu and M. Nomura, “Experimental Investigation of Size Effect on Surface Phonon Polaritons,” FQMD2019, P-17, Tokyo (2019).
  • Y. Guo, M. Bescond, M. Luisier, S. Volz, M. Nomura, “Anharmonic heat transport at interface by NEGF method,” International Workshop on Computational Nanotechnology, P-16, Evanston, Illinois, USA (2019).
  • M. Nomura (Plenary), “Phonon Engineering Learns Photonics for Heat Conduction Control,” International Symposium on Numerical Methods in Heat and Mass Transfer, Plenary Talk 3, Hangzhou, China (2019).
  • M. Nomura and R. Anufriev, “Quasi-ballistic thermal phonon transport in nanostructured Si nanowires, “ TuA1-4, CSW2019, Nara, Japan (2019).
  • N. Okamoto, R. Yanagisawa, M. M. Alam, K. Sawano, M. Kurosawa, and M. Nomura, “Semi-ballistic thermal transport in SiGe nanowires,” TuA1-5, CSW2019, Nara, Japan (2019).
  • M. Nomura (Invited), “Directional Heat Flux in Phononic Crystals,” Q04.12.01, MRS Spring Meeting and Exhibit, Phoenix, USA (2019).
  • M. Nomura (Invited), “Advanced heat flux control by phononic nanostructures,” LIMMS-Next PV Joint Energy Workshop, The University of Tokyo, Tokyo (2019).
  • R. Anufriev, S. Gluchko, S. Volz, and M. Nomura, “Quasi-Ballistic Heat Conduction due to Lévy Phonon Flights in Silicon Nanowires,” LIMMS-Next PV Joint Energy Workshop, P-02, The University of Tokyo, Tokyo(2019).
  • Y. Guo, S. Volz, M. Nomura, “Coherent phonon heat transport by density matrix method,” LIMMS-Next PV Joint Energy Workshop, P-04, The University of Tokyo, Tokyo(2019).
  • S. Gluchko, R. Anufriev, R. Yanagisawa, S. Volz, M. Nomura, “Phonon transport in silicon phononic crystals with pacman holes,” LIMMS-Next PV Joint Energy Workshop, P-05, The University of Tokyo, Tokyo(2019).
  • T-M. Kao, R. Anufriev, R. Yanagisawa, L. Jalabert, S. Volz, and M. Nomura, “Si-based Planar Thin-Film Thermoelectric Cooling device,” LIMMS-Next PV Joint Energy Workshop, P-06, The University of Tokyo, Tokyo(2019).
  • S. Tachikawa, S. Gluchko, L. Jalabert, H. Fujita, S. Volz, and M. Nomura, “Near-field Radiative Heat Transfer between Silicon Microstructures,” LIMMS-Next PV Joint Energy Workshop, P-07, The University of Tokyo, Tokyo(2019).
  • Z. Zhang, S. Hu, P. Jiang, J. Chen, S. Volz, M. Nomura, and B. Li, “Randomness-Induced Phonon Localization in Graphene,” LIMMS-Next PV Joint Energy Workshop, P-08, The University of Tokyo, Tokyo(2019).
  • L. Jalabert, S. Tachikawa, S. Volz, H. Fujita and M. Nomura, “High sensitivity temperature variation measurement using modulated current,” LIMMS-Next PV Joint Energy Workshop, P-09, The University of Tokyo, Tokyo(2019).
  • R. Yanagisawa and M. Nomura, “Planar-type silicon thermoelectric generator with phononic crystal nanostructures,” LIMMS-Next PV Joint Energy Workshop, P-11, The University of Tokyo, Tokyo(2019).
  • X. Huang, S. Gluchko, R. Anufriev and M. Nomura, “Heat conduction in silicon thin film with black silicon nanostructures,” LIMMS-Next PV Joint Energy Workshop, P-15, The University of Tokyo, Tokyo(2019).

2018

  • R. Yanagisawa, and M. Nomura, “Power enhancement of silicon membrane-based thermoelectric energy harvester with tailored holey nanostructures,” PowerMEMS, W2A-01, Daytona Beach, USA (2018).
  • J. Chen, S. Hu, Z. Zhang, P. Jiang, S. Volz, M. Nomura, and B. Li, “Randomness-Induced Phonon Localization in Graphene Heat Conduction,” Nanoscale and Microscale Heat Transfer VI, 193, Levi, Finland (2018).
  • R. Anufriev, S. Gluchko, S. Vola, and M. Nomura, “Quasi-ballistic heat conduction due to Levy phonon flights in silicon nanowires up to room temperature,” Nanoscale and Microscale Heat Transfer VI, 124, Levi, Finland (2018).
  • Y. Wu, R. Anufriev, S. Gluchko, R. Yanagisawa, M. Nomura, and S. Volz, “Proving surface phonon polaritons contribution to thermal conductivity in SiN submicron thin films,” Nanoscale and Microscale Heat Transfer VI, 228, Levi, Finland (2018).
  • S. Gluchko, R. Anufriev, R. Yanagisawa, S. Volz, and M. Nomura, “Phonon transport in silicon phononic crystals with pacman holes,” Nanoscale and Microscale Heat Transfer VI, 112, Levi, Finland (2018).
  • M. Nomura (Invited), “Phononics learn from photonics: thermal phonon engineering by phononic crystal,” Optics & Photonics Japan, 31aCJ4, Tokyo, Japan (2018).
  • M. Nomura (Invited), “Advanced heat conduction engineering by phonon engineering and thermoelectric application,” NAMIS Marathon Workshop, Taiwan (2018).
  • R. Anufriev, S. Gluchko, S. Volz and M. Nomura, “Ballistic heat transport in silicon nanowires at different length-scales and temperatures,” GDRe meeting, Lyon, France (2018).
  • M. Nomura (Plenary), “Advanced heat transfer control in Si membrane by phononic nanostructures,” The 5th Micro & Nanoscale Heat Transfer and Energy Workshop, 8-2, Taipei, Taiwan (2018).
  • M. Nomura (Invited), “Nanostructured Si film thermoelectrics,” European Advanced Materials Congress, B41-42 21-EM-1, Stockholm, Sweden (2018).
  • R. Anufriev, A. Ramiere, J. Maire and M. Nomura, “Necking effects control thermal conductivity of phononic membranes,” IHTC, Beijing, China (2018).
  • M. Nomura (Invited), “Heat conduction control in Si membrane by phononic nanostructures,” IEEE Nano 2018, Tu-5-7-1, Cork, Ireland (2018).
  • S. Gluchko, R. Anufriev, R. Yanagisawa, S. Volz, and M Nomura, “Heat Conduction by Long-range Electromagnetic Surface Waves in Submicron Dielectric Films,” PIERS 2018, 4A_16, Toyama, Japan (2018).
  • S. Gluchko and M. Nomura, “Heat transport in silicon phononic crystals with pacman holes,” P-17, Tokyo, Japan (2018).
  • R. Yanagisawa, and M. Nomura, “Phonon engineering with nanostructured silicon membrane for thermoelectric application,” 1st Nano and Energy mini-Workshop, P-21, Tokyo, Japan (2018).
  • A. George, R. Yanagisawa, and M. Nomura, “Power Enhancement of Si Membrane-based Thermoelectric Generator by Aluminium Ultrathin Layer Deposition,” 37th International and European Conference on Thermoelectrics, Tu-1145, Caen, France (2018).
  • S. Nakagawa, S. Nishimura, R. Yanagisawa, M. Nomura, and N. Yoshie, “Effects of crosslinking on the edge morphology of patterned polymer brushes,” 24th Polymer Networks and Gels, O-33, Prague, Czech Republic (2018).
  • R. Anufriev (Invited), R. Yanagisawa, and M. Nomura, “Surface engineering of nanobeams and nanomembranes for silicon-based thermoelectrics,” Collaboratie Conference on Materials Research, 312, Seoul, Korea (2018).
  • M. Nomura, A. George, R. Yanagisawa, and S. Volz, “Enhancement of Thermoelectric Performance of Si Membrane by Al Silicide Nanodots,” CSW2018, We2A2.7, Boston, USA (2018).

2017

  • R. Yanagisawa, N. Tsujii, O. Paul, T. Mori, and M. Nomura, “Importance of grain size for nanostructured poly-Si thermoelectric material,” The 17th International Conference on Micro and Nanotechnology for Power Generation and Energy Conversion Application, Kanazawa, Japan, Nov. (2017).
  • M. Nomura (Keynote), “Thin Si thermoelectric material by phonon engineering,” IUMRS-ICA2017, D7-01, Taiwan (2017).
  • M. Nomura (Invited), “Physics of Nanoscale Heat Transfer and Applications,” The 9th International Electronics Cooling Technology Workshop, 1445, Yokohama, Japan (2017).
  • M. Nomura (Invited), “Thermophononic crystals,” Wave Phenomena and Phonon Thermal Transport Scientific School, Tu-3, Oleron, France (2017).
  • M. Nomura, R. Anufriev, A. Ramiere, J. Maire, and R. Yanagisawa, “Heat flux engineering in Si membrane by phononic nanostructures,” International Symposium on Hybrid Quantum Systems 2017, TU-A1-2, Sendai Japan (2017).
  • R. Anufriev and M. Nomura, “Coherent control of the phonon density of states using phononic nanostructures,” International Symposium on Hybrid Quantum Systems 2017, TU-A1-4, Sendai Japan (2017).
  • Y. Zhang, B. Qiu, N. Nagai, M. Nomura, and K. Hirakawa, “Enhanced sensitivity of MEMS bolometers by introducing two-dimensional phononic crystal structures,” International Symposium on Hybrid Quantum Systems 2017, P27, Sendai Japan (2017).
  • R. Yanagisawa, N. Tsujii, T. Mori, and M. Nomura, “Si Phononic Crystal Membrane with ZT = 0.1 at 295 K,” International Conference on Thermoelectrics, Pasadena, USA, July (2017).
  • M. Nomura, “Thermal conduction engineering in Si membranes by phononic nanostructures,” US-Japan Joint Seminar on Nanoscale Transport Phenomena, M1-2, Tokyo, July (2017).
  • M. Nomura, J. Maire, R. Yanagisawa, A. Ramiere, and R. Anufriev, “Heat conduction control by phonon band engineering,” EDISON20, Th03-2, Buffalo, USA, July (2017).
  • R. Anufriev, A. Ramiere, R. Yanagisawa, J. Maire, and M. Nomura, “Creating and focusing directional heat fluxes using phononic nanostructures,” EDISON20, Th03-3, Buffalo, USA, July (2017).
  • M. Nomura (Keynote), “Heat transfer control by Si phononic nanostructures,” PHONONICS2017, Tu-3, Changsha, China, June (2017).
  • J. Maire, R. Anufriev, and M. Nomura, “Ballistic Phonon Transport in Si Nanowires,” PHONONICS2017, 181, Changsha, China, June (2017).
  • R. Anufriev, A. Ramiere, J. Maire, and M. Nomura, “Nanoscale Heat Guiding and Focusing Using Phononic Crystal Nanostructures,” PHONONICS2017, 083, Changsha, China, June (2017).
  • R. Anufriev, and M. Nomura, “Thermal Conductance of Hole- and Pillar-Based Phononic Crystals at Low Temperatures,” PHONONICS2017, 107, Changsha, China, June (2017).
  • J. Maire, R. Anufriev, R. Yanagisawa, A. Ramiere, S. Volz, and M. Nomura, “Heat Conduction Tuning Based on the Wave Nature of Phonons,” 2017 MRS Spring Meeting & Exhibit, NM2.4.02, Phoenix, USA, April (2017).
  • J. Maire, R. Anufriev, and M. Nomura, “Ballistic Phonon Transport in Si Nanowires,” 2017 MRS Spring Meeting & Exhibit, NM2.4.03, Phoenix, USA, April (2017).
  • R. Anufriev, and M. Nomura, “Coherent Control of Thermal Conductance in Hole- and Pillar-Based Phononic Crystals,” 2017 MRS Spring Meeting & Exhibit, NM2.4.23, Phoenix, USA, April (2017).
  • M. Nomura, J. Nakagawa, K. Sawano, J. Maire, R. Anufriev, S. Volz, “Thermal Phonon MFP Spectrum Probing Using Phononic Crystals,” 2017 MRS Spring Meeting & Exhibit, NM2.4.24, Phoenix, USA, April (2017).
  • M. Verdier, R. Jucquin, K. Termentzidis, D. Lacroix, R. Anufriev, A. Ramiere, and M. Nomura, “Monte Carlo Simulation of Phononic like Silicon Nanostructures—Comparison to Experiments and Models,” 2017 MRS Spring Meeting & Exhibit, NM2.14.02, Phoenix, USA, April (2017).
  • R. Anufriev, A. Ramiere, J. Maire, and M. Nomura, “Heat Focusing by Phononic Nanostructures,” 2017 MRS Spring Meeting & Exhibit, NM2.6.02, Phoenix, USA, April (2017).
  • M. Nomura (Invited), “Phononic Crystal Nanopatterning in Si and SiGe Thin Films for Thermoelectric Application,” TMS 2017, 27-21-1540, San Diego, USA, Feb. (2017).

2016

  • R. Anufriev, A. Ramiere, J. Maire, and M. Nomura, “Engineering directional heat flow using ballistic phonon transport in phononic nanostructures,” International Symposium on Micro-Nano Science and Technology 2016, SaP-19, Tokyo, Japan, Dec. (2016).
  • A. Ramiere and M. Nomura, “Spectral phonon mean free path and thermal conductivity in 1D phononic crystals,” International Symposium on Micro-Nano Science and Technology 2016, SuP2-A-13, Tokyo, Japan, Dec. (2016).
  • P. Zimmermann, R. Yanagisawa, and M. Nomura, “Improved thermoelectric harvester design by using nano-structuring,” International Symposium on Micro-Nano Science and Technology 2016, SuP-19, Tokyo, Japan, Dec. (2016).
  • M. Nomura (Invited, Best Paper Award), J. Maire, R. Anufriev, A. Ramiere, and R. Yanagisawa, “Phononn engineering by phononic crystal nanostructures,” The 28th Symposium on Phase Change Oriented Science, 9, Atami, Japan (2016).
  • M. Nomura (Invited), R. Anufriev, and K. Sawano, “Thermal Phonon Transport in SiGe Phononic Crystal Nanostructures,” 13th International Conference on Flow Dynamics, OS10-6, Sendai, Japan, Oct. (2016).
  • R. Anufriev, A. Ramiere, and M. Nomura, “Directional heat flow engineering by phononic nanostructures,” Eurotherm 108 Nanoscale and Microscale Heat Transfer V, Santorini, Greece (2016).
  • A. Ramiere and M. Nomura, “Mean free path analysis in phononic crystals,” Eurotherm 108 Nanoscale and Microscale Heat Transfer V, Santorini, Greece (2016).
  • M. Nomura, R. Yanagisawa, J. Maire, R. Anufriev, and S. Volz, “Coherent thermal conduction tuning by phononic crystals,” Eurotherm 108 Nanoscale and Microscale Heat Transfer V, Santorini, Greece (2016).
  • M. Nomura (Invited), “Thermal conduction control using phononic crystal nanostructures,” 33rd International Conference on the Physics of Semiconductors, Mo-F3.1, Beijing, China, June (2016).
  • R. Anufriev, J. Maire, and M. Nomura, “Reduction of thermal conductivity in periodic silicon nanostructures,” Compound Semiconductor Week (CSW) 2016, MoP-ISCS-066 , Toyama, Japan, June (2016).
  • J. Nakagawa, J. Maire, K. Sawano, and M. Nomura, “Nanoscale heat transport in single-crystalline Si and amorphous SiGe phononic crystals,” Compound Semiconductor Week (CSW) 2016, TuC1-2 , Toyama, Japan, June (2016).
  • M. Nomura (Invited), “Thermal phonon engineering for thermoelectric materials,” EMN Spring Meeting 2016, Taiwan, Mar (2016).
  • J. Maire, O. Paul and M. Nomura (Invited), “Silicon phononic crystals for thermoelectric applications,” EMN Meeting on Thermoelectric Materials 2016, A29, Orlando, USA, Feb (2016).
  • M. Nomura (Best Paper Award), J. Nakagawa, J. Maire, and A. Roman, “Crystal structure dependent thermal conductivity in 2D phononic crystals,” 1st Pacific Rim Thermal Engineering Conference, 14-c-3-1, Hawaii, USA Mar (2016).

2015

  • M. Nomura (Invited), “Heat Transfer in Phononic Crystal Nanostructures and Thermoelectric Applications,” 12th International Conference on Flow Dynamics, OS10-3, Sendai, Japan, Nov. (2015).
  • J. Maire, R. Anufriev, and M. Nomura, “Thermal conductivity tuning by disorder in Silicon phononic crystal,” Phonons 2015, UK, July (2015).
  • M. Nomura (Invited) and O. Paul, “Thermophysical property of poly-Si phononic crystals for thermoelectrics,” CMCEE-T1-S2-013, Vancouver, Canada, June (2015).
  • M. Nomura, Y. Kage, J. Nakagawa, T. Hori, J. Maire, J. Shiomi, D. Moser, and O. Paul, “Efficient reduction of thermal conductivity in Si multiscale architecture,” 34th Annual International Conference on Thermoelectrics, Dresden, Germany, June (2015).
  • M. Nomura, Y. Kage, J. Nakagawa, J. Maire, D. Moser, and O. Paul, “Multiple-Scale Phonon Transport Control by Polycrystalline Si Phononic Crystal Nanostructures,” Phononics 2015, Mo-1-4, Paris, France, May (2015).
  • R. Anufriev, J. Maire, and M. Nomura, “Impact of the Phononic Structure Design on the Reduction of Thermal Conductivity,” Phononics 2015, Tu-P5, Paris, France, May (2015).
  • Y. Kage, J. Maire, D. Moser, O. Paul, and M. Nomura, “Large reduction in thermal conductivity of polycrystalline Si by phononic patterning,” MRS Spring Meeting, San Fransisco, April (2015).
  • J. Maire, T. Hori, J. Shiomi, and M. Nomura, “Thermal conductivity reduction mechanism in Si 1D phononic crystals at room temperature,” MRS Spring Meeting, San Fransisco, April (2015).

2014

  • M. Nomura, J. Maire, Y. Kage, D. Moser, and O. Paul, “Reduced thermal conductivity in 1D and 2D phononic crystal nanostructures,” Eurotherrm 103, Nanoscale and Microscale Heat Transfer IV, Wip-02, Lyon, France, Oct (2014).
  • M. Nomura (Keynote, invited), “Thermal conduction control by phononic crystal nanostructures,” 8th US-Japan Joint Seminar on Nanoscale Transport Phenomena, Santa Cruz, USA, July (2014).
  • M. Nomura (Invited), “Thermal conduction engineering by 1D phononic crystal nanostructures,” International Conference on Thermoelectrics, Nashville, USA, July (2014).
  • M. Nomura (Invited), “Thermal conduction control by phonon-band engineering and application to thermoelectrics,” Photonic North 2014, Montreal, Canada, May (2014).
  • M. Nomura and J. Maire, “Reduced thermal conduction in Si nanowires and phononic crystal nanostructures fabricated using EB lithography,” The 9th IEEE International Conference on Nano/Micro Engineered and Molecular Systems, T1G-1, Hawaii, USA, Apr. (2014).
  • M. Nomura (Plenary invited), “From photonic to phononic – toward heat transfer control by MEMS nanostructures,” Symposium on Design, Test, Integration and Packaging of MEMS/MOEMS, Plenary invited 2, Cannes Cote d’Azur, France, Apr. (2014).

2013

  • J. Maire and M. Nomura, “Thermal Conductivity in 1D and 2D Phononic Crystal Nanostructures,” 2013 Material Research Society Fall Meeting, BB10.09, Boston, USA, Dec. (2013).
  • J. Maire and M. Nomura, “Reduced Thermal Conductivities of Si 1D Phononic Crystal and Nanowire,” 26th International Microprocesses and Nanotechnology Conference, 6B-2-3, Sapporo, Japan, Nov. (2013).
  • J. Maire and M. Nomura, “Thermal conductivity measurements in phononic crystal nanostructures,” International NAMIS Autumn School, 7, Seoul, Korea, Sep. (2013).
  • M. Nomura, “Theoretical analyses of coherent effect of phononic crystal nanostructures on heat transfer in Si,” The 18th International Conference on Electron Dynamics in Semiconductors, Optoelectronics and nanostructures, Tu2-3, Matsue, Japan, July (2013).
  • J. Maire and M. Nomura, “Reduced thermal conductivity in a 1D Si phononic crystal nanostructure,” The 18th International Conference on Electron Dynamics in Semiconductors, Optoelectronics and nanostructures, TuP-30, Matsue, Japan, July (2013).
  • M. Nomura, “Si phononics for thermoelectrics,” 11th Nano and Microsystems (NAMIS) workshop, W-2, Seattle, USA, July (2013).
  • W. Shimizu, N. Nagai, K. Hirakawa, and M. Nomura, “Waveguide Coupled Air-Slot Photonic Crystal Nanocavity for Optomechanics,” The 10th Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR), TuPI-6, Kyoto, Japan, July (2013).
  • M. Nomura (Invited), “Toward Si thermoelectric devices based on phononics,” LIMMS Workshop –Beyond the Frontiers of Nanoscience and Biosystems-, 4-4, CNRS Paris, May (2013).

2012

  • W. Shimizu and M. Nomura, “Mechanical properties of optomechanical system with photonic crystal nanocavity,” The 2nd International Symposium on Photonics and Electronics Convergence, P-44, Tokyo Japan, December (2012).
  • M. Nomura, “Si phononic crystal nanostructures for controlling thermal conduction,” 25th International Microprocesses and Nanotechnology Conference, 1C-6-2, Kobe, Japan, Nov. (2012).
  • M. Nomura (Invited), S. Iwamoto, and Y. Arakawa, “Single quantum dot-photonic crystal nanocavity laser,” 3rd International Conference on Photonics 2011, L-D2-AM2-4, Penang, Malaysia, Oct. (2012).
  • M. Nomura (Invited), “Manipulation of thermal conduction by semiconductor nanostructures,” NAMIS International Autumn School 2012, Tokyo, Japan, Sep. (2012).
  • W. Shimizu and M. Nomura, “Mechanical properties of GaAs-based optomechanical system,” NAMIS International Autumn School 2012, G1-8, Tokyo Japan, September (2012).
  • S. Iwamoto (Invited), M. Nomura, A. Tandaechanurat, D. Cao, Y. Arakwa, “2D and 3D photonic crystal nanocavity lasers with quantum dot gain,” IEEE Photonics Conference, ThT2, San Francisco, USA (2012).
  • M. Nomura (Invited), S. Iwamoto, and Y. Arakawa, “Quantum dot-photonic crystal nanocavity laser,” DYCE International Workshop, Thu-6, Hokkaido, Japan, Aug. (2012).

2011

  • M. Nomura, and K. Hirakawa, “Design of a GaAs-based Air-slot Photonic Crystal Nanocavity for Optomechanical Oscillators,” 24th International Microprocesses and Nanotechnology Conference, 27P-11-137, Kyoto, Japan, Oct. (2011).
  • M. Nomura, W. Shimizu, and K. Hirakawa, “Optomechanical properties of a GaAs-based air-slot photonic crystal nanocavity,” International Workshop on Quantum Nanostructures and Nanoelectronics, P-50, Tokyo, Japan, Oct. (2011).
  • K. M. Cha, K. Shibata, M. Nomura, and K. Hirakawa, “Improved size uniformity of site-controlled InAs quantum dots grown at high temperatures,” International Workshop on Quantum Nanostructures and Nanoelectronics, P-45, Tokyo, Japan, Oct. (2011).
  • R. Ohta, Y. Ota, M. Nomura, N. Kumagai, S. Ishida, S. Iwamoto, and Y. Arakawa, “Fabrication of high-Q photonic crystal nanobeam cavities and demonstration of strong coupling with a single quantum dot,” Internal Nano Optoelectronics Workshop (2011).
  • Y. Arakawa, S. Iwamoto, M. Nomura, A. Tandaechanurat, Y. Ota(Invited), “Semiconductor Nanophotonics based on Cavity QED,” Utokyo-Shinhua Pekin, China (2011).
  • Y. Arakawa, Y. Ota, M. Nomura, A. Tandaechanurat, and S. Iwamoto (Invited), “Lasing oscillation in quantum dots and photonic crystal nanocavity coupled systems,” 38thInternational Symposium on Compound Semiconductors Berlin, Germany (2011).
  • Y. Arakawa, M. Nomura, S. Iwamoto, Y. Ota, A. Tandaechanurat(Invited), “Artificial atom lasers Lasing oscillation in a single quantum dot-photonic crystal nanocavity strongly coupled system,” SPIE Photonic West Conference 7947 Quantum Dots and Nanostructures: Synthesis, Characterization, and Modeling VIII.
  • M. Nomura (Invited), S. Iwamoto, and Y. Arakawa, “Single quantum dot photonic crystal nanocavity lasers,” Frontiers in Nanoscale Science and Technology FNST 2011, Th-1, RIKEN, Saitama, Japan, Jan. (2011).
  • K. Konishi, M. Kuwata-Gonokami, M. Nomura, N. Kumagai, S. Iwamoto, and Y. Arakawa, “Circularly-Polarized Photoluminescence from Semiconductor Chiral Photonic Nanostructures,” NANOMETA2011, Tirol, Austria, Jan. (2011).