![The Angular Spectrum Representation of Pulsed Electromagnetic and Optical Beam Fields in Temporally Dispersive Media | SpringerLink The Angular Spectrum Representation of Pulsed Electromagnetic and Optical Beam Fields in Temporally Dispersive Media | SpringerLink](https://media.springernature.com/lw685/springer-static/image/chp%3A10.1007%2F978-3-030-20835-6_8/MediaObjects/82509_2_En_8_Fig1_HTML.png)
The Angular Spectrum Representation of Pulsed Electromagnetic and Optical Beam Fields in Temporally Dispersive Media | SpringerLink
![Particles and Photons as Drivers for Particle Release from the Surfaces of the Moon and Mercury | SpringerLink Particles and Photons as Drivers for Particle Release from the Surfaces of the Moon and Mercury | SpringerLink](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs11214-022-00875-6/MediaObjects/11214_2022_875_Fig12_HTML.png)
Particles and Photons as Drivers for Particle Release from the Surfaces of the Moon and Mercury | SpringerLink
How to find the solution to the differential equation [math]\cos(x) \dfrac {\mathrm dy} {\mathrm dx} +\sin(x) y = 2\cos^3(x) \sin(x) - 1, y (\frac {\pi} {4}) = 3 \sqrt 2. - Quora
![Multiscale Equation-Based Models: Insights for Inflammation and Physiological Variability | SpringerLink Multiscale Equation-Based Models: Insights for Inflammation and Physiological Variability | SpringerLink](https://media.springernature.com/lw685/springer-static/image/chp%3A10.1007%2F978-3-030-56510-7_7/MediaObjects/299482_2_En_7_Fig1_HTML.png)
Multiscale Equation-Based Models: Insights for Inflammation and Physiological Variability | SpringerLink
![Melting of nano‐enhanced phase change material in a cavity heated sinusoidal from below: Numerical study using lattice Boltzmann method - Laouer - - Heat Transfer - Wiley Online Library Melting of nano‐enhanced phase change material in a cavity heated sinusoidal from below: Numerical study using lattice Boltzmann method - Laouer - - Heat Transfer - Wiley Online Library](https://onlinelibrary.wiley.com/cms/asset/1a9d9b2e-89d8-419a-a4bf-5e3ec6da33dd/htj.v51.5.cover.jpg?trick=1657614434706)
Melting of nano‐enhanced phase change material in a cavity heated sinusoidal from below: Numerical study using lattice Boltzmann method - Laouer - - Heat Transfer - Wiley Online Library
How to find the solution to the differential equation [math]\cos(x) \dfrac {\mathrm dy} {\mathrm dx} +\sin(x) y = 2\cos^3(x) \sin(x) - 1, y (\frac {\pi} {4}) = 3 \sqrt 2. - Quora
How to find the solution to the differential equation [math]\cos(x) \dfrac {\mathrm dy} {\mathrm dx} +\sin(x) y = 2\cos^3(x) \sin(x) - 1, y (\frac {\pi} {4}) = 3 \sqrt 2. - Quora
![A highly parallel implicit domain decomposition method for the simulation of the left ventricle on unstructured meshes | SpringerLink A highly parallel implicit domain decomposition method for the simulation of the left ventricle on unstructured meshes | SpringerLink](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs00466-020-01912-3/MediaObjects/466_2020_1912_Fig2_HTML.png)
A highly parallel implicit domain decomposition method for the simulation of the left ventricle on unstructured meshes | SpringerLink
![Melting of nano‐enhanced phase change material in a cavity heated sinusoidal from below: Numerical study using lattice Boltzmann method - Laouer - - Heat Transfer - Wiley Online Library Melting of nano‐enhanced phase change material in a cavity heated sinusoidal from below: Numerical study using lattice Boltzmann method - Laouer - - Heat Transfer - Wiley Online Library](https://onlinelibrary.wiley.com/cms/asset/6d57072e-362a-4c5d-ab47-9e4912b1175e/htj22576-fig-0001-m.png)