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1. Full Text Phononics
: Interface Transmission Tutorial Book Series
by Dobrzyński, Leonard and El Boudouti, El Houssaine and Akjouj, Abdellatif and Pennec, Yan and Al-Wahsh, Housni and Leveque, Gaetan and Djafari-Rouhani, Bahram
2017, ISBN 9780128099483, 398
Phonons
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2. Full Text Electron–Phonon Interactions and the Intrinsic Electrical Resistivity of Graphene
by Park, Cheol-Hwan and Bonini, Nicola and Sohier, Thibault and Samsonidze, Georgy and Kozinsky, Boris and Calandra, Matteo and Mauri, Francesco and Marzari, Nicola
Nano letters, ISSN 1530-6984, 03/2014, Volume 14, Issue 3, pp. 1113 - 1119
intrinsic electrical resistivity | GW approximation | deformation potential | gauge field | Graphene | electron-phonon interaction | Materials Science | Materials Science, Multidisciplinary | Physics, Condensed Matter | Science & Technology - Other Topics | Chemistry, Physical | Physics | Science & Technology | Physics, Applied | Physical Sciences | Chemistry | Nanoscience & Nanotechnology | Technology | Chemistry, Multidisciplinary | Fullerenes and related materials; diamonds, graphite | Phonon-electron and phonon-phonon interactions | Exact sciences and technology | Condensed matter: structure, mechanical and thermal properties | Electron states and collective excitations in thin films, multilayers, quantum wells, mesoscopic and nanoscale systems | Materials science | Condensed matter: electronic structure, electrical, magnetic, and optical properties | Phonons and vibrations in crystal lattices | Electron states | Lattice dynamics | Methods of electronic structure calculations | Electronic structure and electrical properties of surfaces, interfaces, thin films and low-dimensional structures | Specific materials | Cross-disciplinary physics: materials science; rheology | Perturbation theory | Interpolation | Electrical resistivity | Phonons | Electron mobility | Acoustics | Constraining | General Physics
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3. Full Text Photoluminescence of Carbon Nanodots: Dipole Emission Centers and Electron–Phonon Coupling
by Ghosh, Siddharth and Chizhik, Anna M and Karedla, Narain and Dekaliuk, Mariia O and Gregor, Ingo and Schuhmann, Henning and Seibt, Michael and Bodensiek, Kai and Schaap, Iwan A. T and Schulz, Olaf and Demchenko, Alexander P and Enderlein, Jörg and Chizhik, Alexey I
Nano letters, ISSN 1530-6984, 10/2014, Volume 14, Issue 10, pp. 5656 - 5661
carbon nanodots | nanotechnology | transition dipole moment | nanoparticles | electron-phonon coupling | fluorescence | Materials Science | Materials Science, Multidisciplinary | Physics, Condensed Matter | Science & Technology - Other Topics | Chemistry, Physical | Physics | Science & Technology | Physics, Applied | Physical Sciences | Chemistry | Nanoscience & Nanotechnology | Technology | Chemistry, Multidisciplinary | Phonon-electron and phonon-phonon interactions | Exact sciences and technology | Condensed matter: structure, mechanical and thermal properties | Materials science | Condensed matter: electronic structure, electrical, magnetic, and optical properties | Phonons and vibrations in crystal lattices | Phonons in low-dimensional structures and small particles | Optical properties and condensed-matter spectroscopy and other interactions of matter with particles and radiation | Lattice dynamics | Nanocrystalline materials | Optical properties of low-dimensional, mesoscopic, and nanoscale materials and structures | Nanoscale materials and structures: fabrication and characterization | Cross-disciplinary physics: materials science; rheology | Emission spectroscopy | Dipoles | Emission analysis | Photoluminescence | Electronics | Joining | Nanostructure | Carbon
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4. Full Text Electron–Phonon Coupling in Suspended Graphene: Supercollisions by Ripples
by Laitinen, Antti and Oksanen, Mika and Fay, Aurélien and Cox, Daniel and Tomi, Matti and Virtanen, Pauli and Hakonen, Pertti J
Nano letters, ISSN 1530-6984, 06/2014, Volume 14, Issue 6, pp. 3009 - 3013
flexural phonon | Suspended graphene | electron-phonon scattering | shot noise thermometry | Materials Science | Materials Science, Multidisciplinary | Physics, Condensed Matter | Science & Technology - Other Topics | Chemistry, Physical | Physics | Science & Technology | Physics, Applied | Physical Sciences | Chemistry | Nanoscience & Nanotechnology | Technology | Chemistry, Multidisciplinary | Fullerenes and related materials; diamonds, graphite | Phonon-electron and phonon-phonon interactions | Exact sciences and technology | Condensed matter: structure, mechanical and thermal properties | Materials science | Phonons and vibrations in crystal lattices | Nanoscale materials: clusters, nanoparticles, nanotubes, and nanocrystals | Phonons in low-dimensional structures and small particles | Lattice dynamics | Structure of solids and liquids; crystallography | Specific materials | Cross-disciplinary physics: materials science; rheology | Graphene | Scattering | Ripples | Joining | Nanostructure | Shot noise | Transport | Energy transfer | Physics - Mesoscale and Nanoscale Physics
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5. Full Text The self-consistent ab initio lattice dynamical method
by Souvatzis, P and Eriksson, O and Katsnelson, M.I and Rudin, S.P
Computational materials science, ISSN 0927-0256, 2009, Volume 44, Issue 3, pp. 888 - 894
SCAILD | Phonon calculation | Anharmonic | Phonon–phonon interaction | Self-consistent | Phase transition | Phonon-phonon interaction | Materials Science | Technology | Materials Science, Multidisciplinary | Science & Technology | Phonon states and bands, normal modes, and phonon dispersion | Lattice dynamics | Physics | Phonons and vibrations in crystal lattices | Exact sciences and technology | Condensed matter: structure, mechanical and thermal properties | Thunderstorms | Methods
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6. Full Text Length-Scale Dependent Phonon Interactions
2014, Topics in Applied Physics, ISBN 9781461486503, Volume 128
Solid State Physics | Physical Chemistry | Physics and Astronomy | Physics | Nanotechnology | Nanotechnology and Microengineering
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7. Full Text Dissipation dynamics of intrachain exciton coupled with phonons in MEH‐PPV: Time‐resolved multiplex coherent anti‐Stokes Raman scattering
by Wang, Jiao and Wang, Quan and Wang, Wenyan and Wang, Lin and Kang, Zhihui and Yang, Yanqiang and Zhang, Hanzhuang and Wang, Yinghui
Journal of Raman spectroscopy, ISSN 0377-0486, 04/2019, Volume 50, Issue 4, pp. 557 - 562
CARS | dynamics | phonon energy redistribution | exciton‐phonon coupling | phonon–phonon coupling | exciton-phonon coupling | Spectroscopy | Technology | Science & Technology | Raman spectroscopy | Pay-per-view television | Raman spectra | Vibration | Phonons | Coherent scattering | Polyphenylene vinylene | Organic chemistry | Excitons | Lasers | Energy dissipation | Spectrum analysis | Coupled modes | Chemical bonds | Polymers | Bending vibration
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8. Full Text Advances in thermoelectrics
by Mao, Jun and Liu, Zihang and Zhou, Jiawei and Zhu, Hangtian and Zhang, Qian and Chen, Gang and Ren, Zhifeng and Energy Frontier Research Centers (EFRC) (United States). Solid-State Solar-Thermal Energy Conversion Center (S3TEC) and Massachusetts Inst. of Technology (MIT), Cambridge, MA (United States) and Univ. of Houston, TX (United States)
Advances in physics, ISSN 0001-8732, 04/2018, Volume 67, Issue 2, pp. 69 - 147
66.70.Df Thermal conduction | phonon scattering | efficiency | 63.20.kp Phonon-defect interactions | electron-phonon coupling | 72.20.Pa Thermoelectric effects | 72.20.Jv Charge carriers | 72.20.-i Electrical conductivity | 84.60.Rb Thermoelectric energy conversion | thermoelectric | power factor enhancement | defects | 63.22.-m Phonons | Physics, Condensed Matter | Physical Sciences | Physics | Science & Technology | Sustainability | Energy conversion
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9. Phonons and their interactions
by Enns, R. H and Haering, R. R and Simon Fraser University
1969, Volume 2., 198
Phonons
Book
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10. Phonons and phonon interactions [by] B.N. Brockhouse [and others]
by Bak, Thor Anders, 1929 and Brockhouse, B. N
1964, Aarhus Summer School lectures, Volume 1963, 640
Phonons
Book
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11. Full Text Quantum treatment of inelastic interactions for the modeling of nanowire field-effect transistors
by Lee, Youseung and Logoteta, Demetrio and Cavassilas, Nicolas and Lannoo, Michel and Luisier, Mathieu and Bescond, Marc
Materials, ISSN 1996-1944, 01/2020, Volume 13, Issue 1, p. 60
Lowest order approximation | Quantum modeling | Electron-phonon interaction | Padé approximants | Richardson extrapolation | Phonon-phonon interaction | Self-consistent Born approximation | Nanowire transistor | Nonequilibrium Green's function | Materials Science | Technology | Materials Science, Multidisciplinary | Science & Technology | Physics
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