FIG. 9.7 Proposed shape of the phase field of Laves phase (Tb,Dy)Fe₂ in Tb_xDy_1−xFe_1.95 alloys ( Palit et al., 2012 ). More about this image found in Proposed shape of the phase field of Laves phase (Tb,Dy)Fe₂ in T...

FIG. 4.10 (a) Resistance–pressure phase diagram between M1, M1′, and X phases and (b) experimental temperature–pressure phase diagram ( Chen et al., 2017 ). More about this image found in (a) Resistance–pressure phase diagram between M1, M1′, and X phases and (b)...

FIG. 10.5 Gas-phase polyethylene reactor system. More about this image found in Gas-phase polyethylene reactor system.

FIG. 1.7 Flowchart of the training, validation, and testing phases of the ANN day-ahead PV power forecasting model ( Theocharides et al., 2020 ). More about this image found in Flowchart of the training, validation, and testing phases of the ANN day-ah...

FIG. 11.2 The illustration of a pulp digester consisting of three phases (solid, entrapped-liquor, and free-liquor) with their components. More about this image found in The illustration of a pulp digester consisting of three phases (solid, entr...

FIG. 9.1 Crystal structure of binary RFe₂ compound (C15 type Laves phase); R atoms distributed into A and B type sites. More about this image found in Crystal structure of binary RFe₂ compound (C15 type Laves phase)...

FIG. 9.2 Ternary phase diagram of Tb–Dy–Fe proposed by Mei et al. (1997a) . More about this image found in Ternary phase diagram of Tb–Dy–Fe proposed by Mei et al. ...

FIG. 9.3 Volume fraction of pro-peritectic RFe₃ phase plotted as a function of theconcentration of Tb in as-cast and heat treated Tb_xDy_1−xFe_1.95 alloys ( Palit et al., 2012 ). More about this image found in Volume fraction of pro-peritectic RFe₃ phase plotted as a functi...

FIG. 9.6 Lattice parameter of the (Tb,Dy)Fe₂ phase in as-cast and heat treated Tb_xDy_1−xFe_1.95 alloys ( Palit et al., 2012 ). More about this image found in Lattice parameter of the (Tb,Dy)Fe₂ phase in as-cast and heat tr...

FIG. 9.17 (a) and (b) effect of (Tb,Dy)Fe₃ phase on magnetostriction and coercivity of the directionally solidified magnetostrictive Tb_0.3Dy_0.7Fe_1.95 alloy. More about this image found in (a) and (b) effect of (Tb,Dy)Fe₃ phase on magnetostriction and c...

FIG. 4.1 (a) Schematic illustration of unit cell of monoclinic phase (M1) and rutile phase (R) ( Goodenough, 1971 ) and (b) illustration of the electronic band structure of the M1 phase and R phase ( Lee et al., 2020 ). More about this image found in (a) Schematic illustration of unit cell of monoclinic phase (M1) and rutile...

FIG. 7.9 Schematic of the sample configuration utilized for the phase field modeling of BFO/LSMO epilayers. More about this image found in Schematic of the sample configuration utilized for the phase field modeling...

FIG. 7.10 (a) The out-of-plane, (b) in-plane phase contrast image obtained from BFO with tetragonal phase grown on LSMO∼2 nm, and (c) the corresponding out-of-plane domain contrast obtained from the phase field modeling indicating only 〈001〉 polarization dominating the domain pattern. More about this image found in (a) The out-of-plane, (b) in-plane phase contrast image obtained from BFO w...

FIG. 7.11 (a) The out-of-plane (b) in-plane phase contrast image obtained from BFO with mixed phase (rhombohedral + tetragonal) grown on LSMO∼10 nm and (c) the corresponding out-of-plane domain contrast obtained from phase field modeling, indicating the components apart from 〈001〉 polarization eme... More about this image found in (a) The out-of-plane (b) in-plane phase contrast image obtained from BFO wi...

FIG. 7.12 (a) The out-of-plane and (b) in-plane phase contrast image obtained from BFO with rhombohedral phase grown on LSMO∼20 nm and (c) the corresponding out-of-plane domain contrast obtained from phase field modeling, representing more of a fractal domain as present in the rhombohedral phase o... More about this image found in (a) The out-of-plane and (b) in-plane phase contrast image obtained from BF...

FIG. 2.4 Schematic illustration of different insulating phases in oxides. More about this image found in Schematic illustration of different insulating phases in oxides.

FIG. 9.12 Circuit modeling of the four different DC-TENG modes: (a) phase coupled DC-TENG, (b) mechanical rectifier-based DC-TENG, (c) electrostatic breakdown DC-TENG, and (d) metal-semiconductor DC-TENG. More about this image found in Circuit modeling of the four different DC-TENG modes: (a) phase coupled DC-...

FIG. 4.3 Schematic for (a) and (b) Peierls-like mechanism ( Van Smaalen, 2005 ): (a) metallic phase and (b) insulating phase and (c) and (d) Mott-like mechanism ( Imada et al., 1998 ): (c) metallic phase and (d) insulating phase. More about this image found in Schematic for (a) and (b) Peierls-like mechanism ( Van Smaalen, 2005 ): (a)...

FIG. 4.2 (a) In situ XRD pattern showing the evolution of M1 (011) phase to the R phase; (b) M1 (020) phase to the R phase with temperature during heating cycle ( Sohn et al., 2009 ); and (c) in situ Raman spectra of VO₂ single crystal during the heating cycle ( Singh and Viswanath, 2017 ). More about this image found in (a) In situ XRD pattern showing the evolution of M1 (011) ...