Physicists create first butterfly-shaped ultracold molecule

Researchers have produced an exotic molecule that looks like a butterfly, with electron wings, by combining giant and normal-sized rubidium atoms. The achievement completes a two-decade search for a family of such giant molecules and may enable further advances in quantum science.

The molecule was assembled at RPTU University Kaiserslautern-Landau in Germany. Scientists cooled rubidium atoms to within a few millionths of a degree of absolute zero, then used lasers to enlarge some atoms dramatically before binding an outer electron to a neighboring atom. The resulting structure measures roughly 25 nanometres across and responds to electric fields far more strongly than ordinary molecules.

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Researchers have created a new quantum state known as a fractional Fermi sea using ultracold cesium atoms in one dimension. The work, published in Physical Review Letters, shows particles organizing in ways that exceed standard theories.

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Physicists have created a simple model of the universe using ultracold atoms to explore whether time arises from quantum effects rather than existing independently. The work, led by researchers at the University of Birmingham, offers new experimental support for ideas that have circulated for decades.

Scientists have created the first complete design for a quantum version of a pendulum clock using a single atom, mirrors and light. The device could advance understanding of timekeeping at the quantum scale.

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Researchers at EPFL have created the first chip-scale ultrafast laser that matches the performance of traditional tabletop femtosecond lasers. The device delivers pulses as short as 147 femtoseconds with energies of 1.05 nanojoules.

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