This project delves into the principles of interference, particularly focusing on how light waves interact with very thin films, like those seen in soap bubbles or oil slicks. The post is in ...

This project delves into the principles of interference, particularly focusing on how light waves interact with very thin films, like those seen in soap bubbles or oil slicks. The post is in ...

A team of physicists has reimagined one of science’s most iconic experiments—but in the dimension of time. Researchers at ...

A groundbreaking achievement by physicists from Imperial College London has brought new insights into quantum physics by ...

The physical effect giving soap bubbles their rainbow-like appearance is a phenomenon called thin-film interference. It is based on interaction of light reflected on either side of a soap film.

Nowhere is this effect more beautifully demonstrated than in the double-slit experiment ... to produce electron interference. After separation from the film, the molecules were sent through ...

For centuries it was thought that thin-film interference effects, such as those that cause oily pavements to reflect a rainbow of swirling colors, could not occur in opaque materials. Harvard ...

Researchers at Drexel University’s College of Engineering have developed a thin film device ... “These results indicate that the MXene films can convert from electromagnetic interference shielding to ...