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Plasmonics

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Book Chapter
Series: AIPP Books, Principles
Published: February 2023
10.1063/9780735425033_007
EISBN: 978-0-7354-2503-3
ISBN: 978-0-7354-2500-2
... the impact of high density plasmons in reducing the effect of POP modes through dynamic screening. For the sake of completeness, the flow of computational methods used in first principles as well as Monte Carlo calculations is provided. We then discuss several results on the bulk material under both low...
Book Chapter
Series: AIPP Books, Principles
Published: March 2023
0
EISBN: 978-0-7354-2439-5
ISBN: 978-0-7354-2436-4
... Mechanical Systems ( IEEE , 1995 ), p. 310 . Aksyuk , V. A. , “ Design and modeling of an ultra-compact 2×2 nanomechanical plasmonic switch ,” Opt. Express   23 ( 9 ), 11404 ( 2015 ). 10.1364/OE.23.011404 Alferness , R. C. , Joyner , C. H. , Divino , M. D. , and Buhl , L...
Book Chapter
Series: AIPP Books, Principles
Published: March 2023
10.1063/9780735424395_007
EISBN: 978-0-7354-2439-5
ISBN: 978-0-7354-2436-4
..., or plasmonic materials to active parts like bimorphs or heaters. Different materials with potential use in ring- or disk-based MOEMS/NOEMS are tabulated in Table 7.2 along with the refractive index, Young's modulus (E), the coefficient of thermal expansion (k), thermal conductivity (α) at room temperature...
Book Chapter
Series: AIPP Books, Principles
Published: February 2023
0
EISBN: 978-0-7354-2503-3
ISBN: 978-0-7354-2500-2
... in monoclinic β-Ga2O3 effect of plasmon-phonon coupling, anisotropy, and confinement ,” J. Mater. Res.   32 , 4142 – 4152 ( 2017b ). 10.1557/jmr.2017.398 Ghosh , K. and Singisetti , U. , “ Impact ionization in β-Ga2O3 ,” J. Appl. Phys.   124...
Book
Book Cover Image
Series: AIPP Books, Principles
Published: March 2023
10.1063/9780735424395
EISBN: 978-0-7354-2439-5
ISBN: 978-0-7354-2436-4
Book Chapter
Series: AIPP Books, Principles
Published: February 2023
0
EISBN: 978-0-7354-2503-3
ISBN: 978-0-7354-2500-2
.... , “ Electron mobility in monoclinic β-Ga2O3—Effect of plasmon-phonon coupling, anisotropy, and confinement ,” J. Mater. Res.   32 ( 22 ), 4142 – 4152 ( 2017b ). 10.1557/jmr.2017.398 Gossmann , H.-J. and Schubert , E. , “ Delta doping in silicon ,” Crit. Rev. Solid...
Book Chapter
Series: AIPP Books, Principles
Published: February 2023
10.1063/9780735425033_011
EISBN: 978-0-7354-2503-3
ISBN: 978-0-7354-2500-2
.... and Singisetti , U. , “ Ab initio velocity-field curves in monoclinic β-Ga2O3 ,” J. Appl. Phys.   122 ( 3 ), 035702 ( 2017a ). 10.1063/1.4986174 Ghosh , K. and Singisetti , U. , “ Electron mobility in monoclinic β-Ga2O3—Effect of plasmon-phonon...
Book Chapter
Series: AIPP Books, Methods
Published: December 2022
0
EISBN: 978-0-7354-2542-2
ISBN: 978-0-7354-2540-8
... at MX2–metal boundaries with surface plasmon-enhanced Raman scattering ,” Nano Lett.   14 , 5329 – 5334 ( 2014 ). 10.1021/nl5023767 Sun , Y.   , “ Low-temperature solution synthesis of transition metal dichalcogenide alloys with tunable optical properties ,” J. Am. Chem. Soc.   139...
Book Chapter
Series: AIPP Books, Methods
Published: December 2022
0
EISBN: 978-0-7354-2542-2
ISBN: 978-0-7354-2540-8
... , V. G. , and Bao , J. , “ Twisted bilayer graphene superlattices ,” arXiv:1301.4488 ( 2013 ). Westerhout , T. , Katsnelson , M. I. , and Rösner , M. , “ Quantum dot-like plasmonic modes in twisted bilayer graphene supercells ,” 2D Mater.   9 , 014004 ( 2022 ). 10.1088/2053...
Book Chapter
Series: AIPP Books, Methods
Published: December 2022
10.1063/9780735425422_003
EISBN: 978-0-7354-2542-2
ISBN: 978-0-7354-2540-8
... with permission from H. Lin et al., Adv. Mater. 33 , 2008333 (2021). Copyright 2021 Authors, licensed under a Creative Commons 4.0 Attribution License. SERS in 2D Materials To enhance the yield of Raman signals, surface-enhanced Raman spectroscopy (SERS) is being introduced utilizing plasmon resonance...
Book Chapter
Series: AIPP Books, Methods
Published: December 2022
10.1063/9780735425422_010
EISBN: 978-0-7354-2542-2
ISBN: 978-0-7354-2540-8
... dot-like plasmonic modes in twisted bilayer graphene supercells ,” 2D Mater.   9 , 014004 ( 2022 ). 10.1088/2053-1583/ac38ca Wong , D. , Wang , Y. , Jung , J. , Pezzini , S. , DaSilva , A. M.   , “ Local spectroscopy of moiré-induced electronic structure in gate-tunable...
Book Chapter
Series: AIPP Books, Principles
Published: November 2022
10.1063/9780735424470_009
EISBN: 978-0-7354-2447-0
ISBN: 978-0-7354-2444-9
..., combined with plasmonic optoacoustic poration, were shown to record high-quality intracellular signals on high-density commercial complementary metal–oxide–semiconductor–MEAs ( Dipalo et al., 2018 ). Intracellular recording of action potentials on a large network scale has been also achieved using...
Book Chapter
Series: AIPP Books, Principles
Published: November 2022
0
EISBN: 978-0-7354-2447-0
ISBN: 978-0-7354-2444-9
... cells with 3D plasmonic nanoelectrodes ,” Nano Lett. Am. Chem. Soc.   17 ( 6 ), 3932 – 3939 ( 2017 ). 10.1021/acs.nanolett.7b01523 Dipalo , M.   , “ Plasmonic meta-electrodes allow intracellular recordings at network level on high-density CMOS-multi-electrode arrays ,” Nat. Nanotechnol...
Book
Book Cover Image
Series: AIPP Books, Methods
Published: December 2022
10.1063/9780735425422
EISBN: 978-0-7354-2542-2
ISBN: 978-0-7354-2540-8
Book Chapter
Series: AIPP Books, Principles
Published: November 2022
10.1063/9780735424470_005
EISBN: 978-0-7354-2447-0
ISBN: 978-0-7354-2444-9
... parameters in real time. To this aim, optical transducers based on surface plasmon resonance (SPR) were among the first to be proposed. For many years, these devices have represented the gold standard in biosensing and life science research. Nonetheless, due to the complexity of the detecting setup as well...
Book
Images
Comparison between the experimental (a) and the cumulant expansion (b) spec...
Published: August 2022
FIG. 4.9 Comparison between the experimental (a) and the cumulant expansion (b) spectral functions of sodium, showing very good agreement for the peak positions. In (b), the GW spectral function (dashed line) is included for comparison, illustrating the general problem of too large plasmon binding energy in the GWA. The figure is taken from Aryasetiawan et al. (1996) . More about this image found in Comparison between the experimental (a) and the cumulant expansion (b) spec...
Book Chapter
Series: AIPP Books, Methods
Published: August 2022
10.1063/9780735422490_004
EISBN: 978-0-7354-2249-0
ISBN: 978-0-7354-2246-9
... excitations (plasmons) contained in B(ω), which is proportional to the imaginary part of the screened interaction W, are transferred to the imaginary part of the self-energy. They are, in turn, carried over to the Green function through the Dyson equation and appear as satellites...
Images
Left: Polarization together with the line 1/<em>V</em><sub> q </sub>...
Published: August 2022
FIG. 4.6 Left: Polarization together with the line 1/V q , where V q is the bare Coulomb interaction computed for the electron gas at two different q -points. Right: The solid red line shows the dispersion of the plasma frequency defined as the frequency, where the absolute value of the dielectric function is minimum for each q -point. The color scale shows the size of the imaginary part of the polarization for each q and ω point. For large q , the plasmon will be damped due to the large values of ImP. The figures are taken from Nilsson et al. (2017) . More about this image found in Left: Polarization together with the line 1/V q ...
Images
The spectral function of nickel for a 3<em>d</em> state at the <ita
Published: August 2022
FIG. 4.11 The spectral function of nickel for a 3d state at the X-point computed within the T-matrix approximation in combination with the GWA (GW+T) compared with the GW spectra. The first large peak at around −3 eV is the quasiparticle peak and the satellite structure starting at around −7 eV arises from the hole–hole bound state described by the T-matrix, whereas the high-energy structures at around −30 and −38 eV can be attributed to plasmons already present within the GWA. The figure is taken from Springer and Aryasetiawan (1998) . More about this image found in The spectral function of nickel for a 3d state at the