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In comparison, semi-ellipsoidal nanoparticles with the same EGP provide maximal electric field intensity enhancement of only about 4.1 × 102.
Labels above the bars indicate the light wavelength, which the maximal electric field intensity enhancement for specific nanoparticle geometry was obtained at.
The whole set of maximal electric field enhancement values obtained for each of the nanoparticle geometries is presented in Figure 7.
For a defined nanoparticle shape and geometrical parameters, maximal electric field intensity enhancement is obtained at a specific light wavelength, which was found to range from about 620 nm (for small nanoparticles) to near infrared region (for large nanoparticles).
Detailed light wavelength values are contained in labels in Figures 6, 7, and 8. Figure 7 Calculated values of maximal electric field intensity enhancement near differently shaped Au nanoparticles.
The light intensity enhancement factor inside KDP crystal for two scratches in simulated region was extracted to be 2.07 and 1.34, respectively, the maximal electric field intensity around elliptical scratch 1.24 times that of triangular one.
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Indeed, the range of maximal electric fields experiences by molecules within the excited ensemble during deceleration and trap loading, indicated by the think lines in Fig. 25(c), show that many molecules are subjected to fields beyond the Inglis-Teller limit.
(E^{text {ESL}}_{text {50max}}) is defined as (E^{text {ESL}}_{50}) for a configuration with maximal electric-field strengths (all 411 APs are active with an EIRP value of 20 dBm).
The first one limits the maximal electric-field in the building at a user-defined level (e.g., in accordance with national regulations) and designs a network with a minimal cost, expressed in number of APs.
International organizations such as IEEE [ 1] and ICNIRP (International Commission on Non-Ionizing Radiation Protection) [ 2] have issued safety guidelines to limit the maximal electric-field strength due to wireless communications.
The shape of the cells is optimized to reduce the maximal surface electric field and RF loss power.
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