Using a new method, physicists have investigated the ultrafast fragmentation of hydrogen molecules in intense laser fields in detail. They used the rotation of the molecule triggered by a laser pulse ...

Scientists have made leaps and bounds in bending atoms to their will, making them into everything from ultraprecise clocks to ...

Controlling the rotation of this molecule could lead to new technologies for microelectronics, quantum computing and more. You can easily rotate a baseball in your hand by twisting your fingers. But ...

Being able to rotate a molecule of oxygen on command could lead to a new concept of data storage, say scientists at Cornell University, Ithaca, N.Y. Working with a "homemade" scanning tunneling ...

Scientists have used precisely tuned pulses of laser light to film the ultrafast rotation of a molecule. The resulting 'molecular movie' tracks one and a half revolutions of carbonyl sulphide (OCS) -- ...

Scientists were able to manipulate a calcium monohydride molecular ion — made up of one atom of hydrogen and one atom of ...

Using a new method, physicists at the Heidelberg Max Planck Institute for Nuclear Physics have investigated the ultrafast fragmentation of hydrogen molecules in intense laser fields in detail. They ...