Credit: GERD GUENTHER/SCIENCE PHOTO LIBRARY

Caption: Light microscopy of the colours in a thin soap film. The bands of intense colour occur when the thickness of the soap film is comparable to the wavelength of visible light. Light rays reflect from the top and bottom layers of the film, causing specific wavelengths to be removed or enhanced in the reflected light by destructive and constructive interference. The distance between the top and bottom of the film determines which colours are seen. The fifth order interference occurs at a thickness of over 790 nanometres, producing pink and green colours. At 680nm, bright grass green is produced. As it thins more, the light appears bright red (542nm), purple (396nm), crimson (371nm) and violet (216nm). At its thinnest, some 6nm, it appears black, and after this the film pops. The constant movement of the film is due to it being mounted vertically, with gravity making it thicker at the bottom, and also through evaporation of the water. Blowing on the film produces tiny bubble-like regions, and dust particles form concentric spots of colours as the dust attracts the film. Filmed with incident lighting, with a captured field width of 0.8 millimetres.

Release details: Model release not required. Property release not required.

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Soap film colours, microscopy

K006/7525 Rights Managed

Downloadable master

Duration: 00:00:22

Frame size: 1920x1080

Frame rate: 24

Audio: No

Format: QuickTime, Photo JPEG 100%, progressive scan, square pixels

File size: 541.4M

Original

Capture format: Blackmagic Micro Studio Camera 4K

Frame size: 3840x2160

Codec: GoPro Cineform

Please contact Science Photo Library if you require the original, or other formats.

 

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