photonic crystal

Off the battlefield, how might life be different in the future if photonic crystals came to pass?

The photonic crystal won't work if there are no atoms in the first excited state.

A material exhibiting this behaviour is known as a photonic crystal.

The first photonic crystal fibers became commercially available in 2000.

Even better, the 2 and 3D photonic crystals, could, conceivably, be big.

It has, in principle, no loss, which is almost the complete opposite of any real photonic crystals.

Photonic crystals can be fabricated for one, two, or three dimensions.

Photonic crystals are our attempt to overcome the shortcomings of nature.

Recently photonic crystals have also been used to minimize back-reflections.

The researchers will probably argue that this photonic crystal should only be used with very weak light fields.

The lens in question was manufactured from a two-dimensional photonic crystal.

Photonic crystals can in principle find uses wherever light must be manipulated.

It is created by the photonic crystal structure of its chitin scales.

If the second option is true, there can't be any gain, and the photonic crystal has catastrophic losses.

Özbay holds 2 patents in the area of photonic crystals.

This structure may be likened to a photonic crystal.

Furthermore, the complex response of photonic crystals functions by diffracting light.

The division investigates new optical materials, especially photonic crystal fibers.

After 1987, the number of research papers concerning photonic crystals began to grow exponentially.

Photonic crystals are expected to have revolutionary applications in optical communication and other areas of light technology.

Photonic crystals can be formed in different ways.

Among other things, photonic crystals raise the possibility that one day light could replace electricity as the currency of computers.

Photonic crystals allow for the manipulation of light.

However, once it is working, you get a photonic crystal that has nearly perfect boundaries between high and low refractive index areas.

Light scattered out of plane is lost, and these photonic crystals have very high out-of-plane losses.