The human eye can only see light at certain frequencies (called the visible spectrum), the lowest of which constitutes red light. Infrared light, which we can’t see, has an even lower frequency than ...

BENGALURU: In a breakthrough that could have widespread applications in defence, communications, and scientific imaging, researchers at the Indian Institute of Science (IISc) have fabricated a novel ...

Researchers have for the first time demonstrated that a specific class of oxide membranes can confine, or 'squeeze,' infrared light -- a finding that holds promise for next generation infrared imaging ...

From left to right: Schematic of the nonlinear optical mirror used for up-conversion imaging. Energy diagram showing the sum frequency generation process used for up-conversion. Representative ...

Bengaluru: In a breakthrough that could have widespread applications in defence, communications, and scientific imaging, researchers at the Indian Institute of Science (IISc) have fabricated a novel ...

Researchers have for the first time demonstrated that a specific class of oxide membranes can confine, or “squeeze,” infrared light – a finding that holds promise for next generation infrared imaging ...

BENGALURU: Researchers at the Indian Institute of Science (IISc) have fabricated a device to increase or ‘up-convert’ the frequency of short infrared light to the visible range. The human eye can only ...

Fourier transform infrared (FTIR) spectroscopy is the preferred method of infrared spectroscopy. In this approach, IR radiation passes through a sample, where some of it is absorbed by the sample ...