Short Answer
Neutrinoless double beta decay (0νββ) is the best answer.
Nuclear and particle questions tend to hinge on conservation laws, decay rules, interaction types, or scale. A clean answer usually comes from identifying the process before the details.
0νββ decay would violate lepton number conservation and prove neutrinos are Majorana particles (their own antiparticle) — not yet observed.
Why This Answer Is Correct
This is a Hard-level question in Nuclear & Particle Physics. The prompt is really testing whether you can connect the concept to its defining physical relationship instead of picking a nearby-but-wrong term.
Track conserved quantities carefully: energy, momentum, charge, lepton number, baryon number, and spin-like constraints when relevant.
Choices At A Glance
- A. Beta decay
- B. Double beta decay
- C. Neutrinoless double beta decay (0νββ)
- D. Alpha decay
When similar options appear on an exam, eliminate the ones that break the core law, use the wrong units, or confuse a definition with a consequence.
Study Next
Review the related formula library
review the theoretical physics hub
Topic Snapshot
Topic: Nuclear & Particle Physics
Difficulty: Hard
Best next move: Re-state the governing law in your own words, then solve one more example from the same topic before moving on.