A research team including members from the University of Michigan have unveiled a new observational technique that's ...

Use precise geolocation data. Actively scan device characteristics for identification. Store and/or access information on a device. Personalised advertising and content, advertising and content ...

Electromagnetic simulation is important and time-consuming in RF/microwave circuit design. Physics-informed deep learning is a promising method to learn a family of parametric partial differential ...

Fig. 4: A metamodel of optimal prognosis (MOP) from OptiSLang. Both HFSS and optiSLang also support distributed computing for simulation acceleration through task parallelization, further improving ...

High-frequency electromagnetic simulation has evolved from “wow, now I can see how electromagnetic fields behave” to needing to know how various EM fields interact in large, complex systems. During ...

SPhPs also concentrate electromagnetic energy in the mid-infrared (3 to 8 mm) up to the far-infrared (15 to 1000 mm) wavelength range. This property might make it possible to use them in applications ...

Scientists have succeeded in imaging so-called surface phonons in three dimensions for the first time. The research success could accelerate the development of new, efficient nanotechnologies.

Electromagnetic fields of nanostructures visualized in 3D for the first time Date: March 29, 2021 Source: Graz University of Technology Summary: Researchers have succeeded in imaging so-called ...

EMPIRE XPU™ is a 3D electromagnetic field simulator based on the powerful Finite Difference Time Domain (FDTD) method. With EMPIRE’s unique XPU technology (Accelerated Processor Usage), it exhibits ...