The precise measurement of states in atomic and molecular systems can help to validate fundamental physics theories and their ...

The questions in this quiz are suitable for GCSE physics students studying structure of the atom, atoms and isotopes and ions. If you struggled with the quiz, don't panic - we've got you!

“This achievement creates a foundation for providing the heaviest ion beams for creating rare isotopes. It extends scientific reach into unexplored regions of the nuclear landscape,” concluded ...

"The initial challenge in this experiment was to generate and isolate the hydrogen-like ion of the desired isotope Bi-208," explains Dr. Max Horst, lead author of the study. To do this, a neutron ...

The $730 million facility is currently operating at 1 kW but will eventually reach 400 kW, which will allow it to accelerate many more ions, increasing the number of isotopes it can produce.

The next advance was the development of heavy-ion accelerators in the 1960s, which produced heavy neutron-deficient isotopes in fusion evaporation reactions. With higher-energy accelerators in the ...

Figure 1: Measured rates of oxygen-isotope exchange ... by release from the near-surface four-fold coordinated oxide ion in the bulk structure of hematite. We predict that isotope exchanges ...

the resulting collisions cause the ions to lose or gain neutrons or protons and become unstable. This causes them to create thousands of rare isotopes, themselves highly unstable — often ...

Strontium also plays an important role in figuring out the origins of species: Anthropologists measure the levels of strontium ions in bones ... one of its isotopes, Sr-90, carries a more sinister ...

East Lansing — Michigan State University celebrated the opening of the world's most powerful heavy-ion accelerator Monday, allowing researchers to create and study new rare isotopes.