A British student has used an ordinary camera and tripod to capture a prizewinning pH๏τograph of a single atom.
David Nadlinger was able to capture the atom, which was held between two small needle tips about 2 millimetres apart.(David Nadlinger, The University of Oxford )
The long exposure pH๏τograph was taken by University of Oxford student David Nadlinger through a window of a ultra-high vacuum chamber.
Apart from using a lens accessory that increases the focal length of an existing lens, much of the camera technology Mr Nadlinger used was simplistic.
But the scientific process behind capturing the atom in the pH๏τo was much more complex.
The single positively-charged strontium atom, held near motionless by electric fields, was illuminated by a laser of a blue-violet colour which caused the atom to absorb and re-emit light quickly enough for an ordinary camera to capture it in a long exposure pH๏τograph.
Mr Nadlinger was able to zoom in close enough to capture the atom, which was held between two needle tips about 2 millimetres apart.
The resulting image named Single Atom in an Ion Trap came first in the Equipment and Facilities category of the Engineering and Physical Sciences Research Council’s national science pH๏τography compeтιтion.
You might have the right camera rig, but it might not be so simple to snap your own atom selfie just yet.
“The idea of being able to see a single atom with the naked eye had struck me as a wonderfully direct and visceral bridge between the miniscule quantum world and our macroscopic reality,” Mr Nadlinger said.
“A back-of-the-envelope calculation showed the numbers to be on my side, and when I set off to the lab with camera and tripods one quiet Sunday afternoon, I was rewarded with this particular picture of a small, pale blue dot.”
Reference: ABC News