"This finding is fundamental to the whole field of metamaterials," said Vladimir M. Shalaev, Purdue's Robert and Anne Burnett Professor of Electrical and Computer Engineering. "We showed that, in principle, it's feasible to conquer losses and develop these materials for many applications." Resea...
produced by a destructive interference between the states of narrow discrete and the states of the large continuum61,62. This has drawn a lot of attention due to the wide variety of sensors and optical devices to which it can be applied. Fano resonance has been investigated in the PnCs perio...
and titanium oxide with a small amount of niobium—chosen because it exhibits large polarization values with well-defined directions, either up or down. The challenge was mapping the internal electric fields in materials thousands of times thinner than a human ...
Recently, intelligent fault diagnosis based on deep learning has been extensively investigated, exhibiting state-of-the-art performance. However, the deep learning model is often not truly trusted by users due to the lack of interpretability of “black box”, which limits its deployment in safety-...
The review also addresses the current challenges and future prospects of organic biosensing, thus emphasizing the potential for breakthroughs in personalized medicine, environmental sustainability, and the advancement of human health and well-being. Keywords: organic electronics; OECT; OFET; OPD; implants...
magnetic field; focusing; magnetic hyperthermia; transcranial magnetic stimulation; metamaterials; metasurfaces; biomedical applications1. Introduction Recently, magnetic fields have been extensively used in various bioengineering and biomedical applications, both for diagnosis and therapy. In more detail, one ...