Dynamic resonance and phonon relaxation. Here we consider a two-molecule system and take,, and . In (a), where two molecules are coupled to a shared phonon bath with, the time evolution of the population of molecule 2 is shown for various phonon relaxation rates : here we take (blue), 0.5 (purple) and 3.0 (brown).
In this addendum we report the recalculated phonon frequencies of gold using the formalism presented in an earlier paper and compare them with recently available experimental values. Our results are found in reasonably good agreement with experimental measurements. The form factor, effective ion-ion potential, and cohesive energy are also …
The compelling case of biological transmutations informs the open questions of biophotonics by synthesis with the formulaic framework of phonon resonance developed by W. Lussage in 1965 and confirmed in microbial transmutation studies by J. Champion in 2001: Dimensional phonon resonance occurs when the space occupied by one isotope …
Citation preview. Latest current news.... April 4, 2005 Latest current research... April 4, 2005 Email: [email protected] Telephone for Dr. C: 928-279-4805 The Return to Transmutation Dr. Joe Champion March 30, 2005 [updated: 4.3.2005] For those who have followed my past since my first publication "Producing Precious Metals at Home" in 1993, a …
in the molecular dynamics simulations, our study indicates that the phonon resonance would occur once the washboard fre-quency is close to the natural frequency of the frictional system, leading to remarkable local maxima in energy dissipation. Graphical Abstract Keywords Phonon resonance · Washboard frequency · Energy dissipation · …
(a) Detector signal vs fundamental FEL frequency measured with a 18 m thick, (211) oriented GaAs crystal. For frequencies above 4.9 THz the data are multiplied by 10.
The physics of phonon resonance now confirms the experimental research of a lesser-known German alchemist named Franz Tausend, revealing the authenticity of his early breakthroughs in the resonant …
Intense mid-infrared electric field pulses tuned to resonance with a phonon mode of the archetypical antiferromagnet DyFeO 3 induce ultrafast and long-living …
In this work, we report a combined experimental and theoretical study of the scaling of infrared (IR) phonon resonance and phonon polaritons with the thickness from monolayer to hundreds of layers in both naturally abundant hBN and isotopically pure h 10 BN and h 11 BN 32,33 crystals. Our focus on crystals with N < 20 reveals dissimilar …
A zoom-in is shown in the inset and the wavenumber of the CO 2 laser ν = 944 cm −1 for monochromatic imaging outside the phonon resonance is marked. The spectrum of the broad-band laser system for three different …
When the height of the nanopillars are not uniform, the phonon resonance is further enhanced, with the occurrence of more flat bands in the dispersion relations. With non-uniform nanopillar height, more phonon modes bear the participation ratio below 0.2, indicating that phonons are more localized when the symmetry of the system is broken.
The poor heat conduction between carbon nanotubes (CNTs) has become a severe obstacle, hindering the applications for thermal management. Considering that the across-tube heat transport is limited by the small fraction of low-frequency phonons (LFPs), it is of great necessity to develop a strategy to excite LFPs without modifying the tube …
special thanks to Dr. John O'M Bockris, who through his wiry Brit humor, forced me to strive to the highest level ... Chapter III Explanation of Resonance Reaction 39 Chapter IV Experimental Examples 43 Chapter V Analytical Analysis of Experiments 53 ... gold, makes thy own rules." J. Champion In this book, you will learn different procedures ...
We propose a highly sensitive refractive index sensor based on the surface phonon resonance (SPhR) in the mid-IR spectral range. Surface phonon polaritons (SPhPs) are formed on polar dielectrics such as SiC in mid-IR wavelength range and can be excited with the help of a metallic grating at specific wavelength termed as resonance …
Carbon dioxide-producing active yeast reactors developed by Joe Champion in 2001 applied phonon resonance formulae, as first conceived by geologist Walter Lussage in 1967, for biological transmutation of silver surfaces to ... A new resonant class of safe nuclear transmutation systems exemplified by the Ecat reactor of Dr. A. Rossi must ...
A variety of thermodynamic parameters were derived from the measured density of phonon states for hcp iron, such as Debye temperatures, Grüneisen parameter, mean sound velocities, and the lattice contribution to entropy and specific heat. ... (SR) (7, 8), which employed the 14.413-keV resonance of 57 Fe. Measurements of the phonon …
Carbon dioxide-producing active yeast reactors developed by Joe Champion in 2001 applied phonon resonance formulae, as first conceived by geologist Walter Lussage in …
Phonon resonance calculations reveal the elusive quantum dynamics of lattice interactions that induce low energy nuclear reactions throughout the bodies of living organisms, as first identified by Kervran decades earlier.
Copper isotope Cu 65 achieves phonon resonance with iron isotope Fe 58 at rest (20°C) when heated to 339.5°C, where frequency matching occurs at precisely 43,391,894 Hz: Copper may be reprocessed multiple times through the same phonon reactor to increase the content of iron atoms within the copper lattice by resonant conversion, until the ...
Twisted van der Waals heterostructures are known to induce surprisingly diverse and intriguing phenomena, such as correlated electronic phase and unconventional optical properties. This can be realized by controlled rotation of adjacent atomic planes, which provides an uncommon way to manipulate inelastic light–matter interactions. …
The document discusses the possibility of using phonon resonance to produce gold from iron-containing minerals. It explains that the author was able to produce small amounts …
According to Champion, aluminum is transformed to gold and silver is transformed to gold in a low energy nuclear reaction. The nano gold atoms are captured …
Here, the phonon resonance line is clearly asymmetric with a pronounced dip at μ 0 H ext = 3.5 T indicating non-trivial magnon-phonon energy exchange. In the following section, we assign this ...
The lattice vibrations (phonon modes) of crystals underpin a large number of material properties. These include the volumetric and constant-pressure heat capacities, the Helmholtz and Gibbs free energies and the thermal conductivity [].They also provide important spectral signatures (e.g. IR/Raman) that are often used as routine …
This research not only contributes to our understanding of phonon transport but also opens a new degree of freedom for utilizing van der Waals nanoparticle-induced resonance, offering promising avenues for the modulation of thermal properties in advanced materials and enhancing their performance in various technological applications.
We demonstrate the excitation of surface phonon polaritons (SPhPs) in the mid-infrared (mid-IR) Reststrahlen band (10.288 μm-12.563 μm) on patterned surfaces with silicon carbide (SiC) substrate and gold (Au) gratings.The very large negative permittivity of Au limits its applications in the mid-IR range, and to couple incident light to SPhPs …
We consider the surface phonon polariton coupling in an SiO2 optical cavity with 250 nm metal (gold (Au)/chrome (Cr)) side walls, and find a temperature dependence of the quality factor, Q=ωo/Δω.
Exploring the possibility of nanostructures to modulate thermal conductivity (TC) contributes to promote a deeper comprehension of phonon diffusion and transport processes with the design of thermally insulated devices with high ZT values, and the GaAs nanowires (NWs) widely used in optoelectronic and microelectronic devices exhibit …
A zoom-in is shown in the inset and the wavenumber of the CO 2 laser ν = 944 cm −1 for monochromatic imaging outside the phonon resonance is marked. The spectrum of the broad-band laser system for three different central wavelengths is sufficient to cover the phonon resonance of SrTiO 3 as can be seen in (c). The near-field spectra of the ...
Semantic Scholar extracted view of "Excitation of surface phonon polariton modes in gold gratings with silicon carbide substrate and their potential sensing applications" by G. Zheng et al. ... The effect of surface phonon resonance and long range SPhR on the Goos-Hänchen shift (GHS) in the mid-infrared wavelength region is …
The physics of phonon resonance now confirms the experimental research of a lesser-known German alchemist named Franz Tausend, revealing the authenticity of his early breakthroughs in the resonant atomic …
Phonon resonance scattering caused by point defects has long been believed to be able to induce an abnormal temperature dependence of thermal conductivity ensuremath{kappa} that significantly deviates from the prediction of Rayleigh scattering. However, a rigorous demonstration and microscopic origin of this behavior are still …
Dr. Champion's phonon resonance formula provides the resonant frequency of gold (Au) in its rest state as 38,931,841 Hz and the 107 Ag isotope of silver as 38,962,532 Hz (above).
My Science Fair Project : How To Make Gold by Robert A. Nelson (© 2018) Alchemists have tried to make gold from other elements ever since smelting was discovered. The process of discovery eventually culminated in the legendary Philosophers' Stone, (Lapis Philosophorum), which supposedly can transmute base metals such as lead or mercury …
Fig. 3 presents the obtained temperature dependences of SP resonance energy and bandwidth for the gold nanoparticles of various sizes. Fig. 2, Fig. 3 show that monotonous increase of the temperature from 17 to 915 0 С leads to monotonous red shift (shift to lower frequencies) of surface plasmon band and its significant broadening. …
VOLUME 8, NUMBER 12 PHYSI CAI. REVIEW LETTERS JUNs 15, 1962 THERMAL CONDUCTIVITY AND PHONON RESONANCE SCATTERING R. O. Pohl Laboratory of Atomic and Solid State Physics, Cornell University, Ithaca, New York (Received May 3, 1962) A resonance interaction between phonons and the electron spin of paramagnetic …
Dimensional phonon resonance occurs when the space occupied by one isotope is exactly the same as that of another isotope in its rest state. This event only …
DOI: 10.1016/j.snb.2024.135302 Corpus ID: 266911749; MXene-enhanced multi-phonon resonance Raman scattering of ZnS for sensitive and reliable glioma detection @article{Jin2024MXeneenhancedMR, title={MXene-enhanced multi-phonon resonance Raman scattering of ZnS for sensitive and reliable glioma detection}, author={Yao Jin …
Gas absorption periods of prolonged dwell-time at phonon resonance with the gold target element are interrupted by controlled rapid cooling events that accomplish the quantum trapping of absorbed gas atoms within the contracting metal lattice. This cyclical process is repeated dozens of times over each 2-week production run, with successive ...
