Discover

Share

Download

News

/

Article

Relativistic treatment of low‐energy nuclear phenomena

MAR 01, 1984

DOI: 10.1063/1.2916155

Bertram M. Schwarzschild

Because the binding energies of nuclei are very much smaller than their rest masses, one would not have expected relativistic effects to play a significant role in nuclear structure or nuclear scattering at modest energies. Thus the nonrelativistic Schrödinger equation has until recently been the basis for almost all calculations in traditional nuclear physics. But in the past three years, the coming together of precise new data and novel theoretical approaches has made it appear that a fully relativistic treatment is indispensable for the understanding of nuclear phenomena even at low energies.

© 1984. American Institute of Physics

This Content Appeared In

Volume 37, Number 3

Related content

News

/

Article

Liting Xiao searches for patterns in financial markets

October 16, 2025 11:07 AM

News

/

Article

Eric Frederick programs motion-tracking software

October 16, 2025 10:42 AM

News

/

Article

Phil Broughton keeps laboratories safe

October 09, 2025 03:25 PM

News

/

Article

Roohi Dalal advocates on Capitol Hill for the astronomy community

October 09, 2025 03:25 PM

News

/

Article

FYI science policy briefs

October 09, 2025 02:46 PM

News

/

Article

Lutetium and hafnium tell the story of liquid water on asteroid Ryugu

Despite the tumultuous history of the near-Earth object’s parent body, water may have been preserved in the asteroid for about a billion years.

October 08, 2025 08:50 PM

Get PT in your inbox

Physics Today - The Week in Physics

The Week in Physics" is likely a reference to the regular updates or summaries of new physics research, such as those found in publications like Physics Today from AIP Publishing or on news aggregators like Phys.org.

Physics Today - Table of Contents

Physics Today - Whitepapers & Webinars