Physics:Isotopes of hydrogen
Isotopes of hydrogen are atoms with one proton in the nucleus and different numbers of neutrons. The three named isotopes are protium (), deuterium ( or D), and tritium ( or T).
Hydrogen isotopes are important in atomic physics because the nucleus affects the reduced mass, hyperfine structure, isotope shifts, and precision spectroscopy of hydrogen-like systems.
Main isotopes
| Isotope | Symbol | Nucleus | Stability | Notes |
|---|---|---|---|---|
| Protium | one proton | stable | Most common hydrogen isotope; no neutron. | |
| Deuterium | or D | one proton and one neutron | stable | Used in heavy water, isotope labeling, and precision spectroscopy. |
| Tritium | or T | one proton and two neutrons | radioactive | Beta emitter with a half-life of about 12.3 years; used in tracing and fusion research. |
Quantum effects
Different hydrogen isotopes have slightly different atomic energy levels because the nuclear mass changes the reduced mass of the electron-nucleus system. These isotope shifts are measured in high-precision spectroscopy.
The nuclear spin also affects hyperfine splitting. Ordinary hydrogen and deuterium have different nuclear spin values, so their hyperfine spectra differ. Tritium is radioactive, but it is still useful in nuclear and atomic physics contexts.
Related pages
- Physics:Quantum atoms/hydrogen
- Physics:Quantum atoms/energy level
- Physics:Quantum Spectral lines and series
- Physics:Quantum atomic nucleus
- isotope shifts in atomic spectra
References
- "Hydrogen". https://www.britannica.com/science/hydrogen.
- "Isotopes of hydrogen". https://www.britannica.com/science/hydrogen/Isotopes-of-hydrogen.
- "Tritium". United States Environmental Protection Agency. https://www.epa.gov/radiation/radionuclide-basics-tritium.