One by Rob Appleby, on hadron therapy, and one by me on particle physics stuff.
From the guardian.co.uk
Baryon spectroscopy and meson spectroscopy are both types of hadron spectroscopy.
From the en.wikipedia.org
It is unknown how to relate the theoretical parameters to the observed hadron masses.
From the sciencedaily.com
In the standard model of particle physics, the proton is a hadron, composed of quarks.
From the en.wikipedia.org
Colliding hadron and then look for all the settling debris is one such way.
From the guardian.co.uk
As a result, hadron collisions can be messy and difficult to interpret.
From the economist.com
Mesons are part of the hadron particle family, defined simply as particles composed of quarks.
From the en.wikipedia.org
The exchange of gluons produces a force so strong that no individual quark can ever escape from a hadron.
From the newscientist.com
Apparently he's studying what happens when you put a Yorkshire pudding in the hadron collider at Cern in Geneva.
From the guardian.co.uk
More examples
Any elementary particle that interacts strongly with other particles
In particle physics, a hadron i/u02C8hu00E6dru0252n/ (Greek: u1F01u03B4u03C1u03CCu03C2, hadru00F3s, "stout, thick") is a composite particle made of quarks held together by the strong force in a similar way as molecules are held together by the electromagnetic force.
Baryons and mesons together are categorized as hadrons. These are particles made of quarks.
Category of particles that includes one of two combinations of quarks: three quarks or three antiquarks (a baryon) or a quark and an antiquark (a meson).
Every particle subjected to strong interaction. Hadrons are classified in baryons (composed of 3 quarks) like neutron and proton, with half integer spin and mesons (composed of a quark and an antiquark) having integer spin. ...
A collective term for the particles which make up atoms, including protons and neutrons.