Oxygen burning process

Oxygen burning process
This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Oxygen_burning_process".

The oxygen burning process is a set of nuclear fusion reactions that take place in massive stars that have used up the lighter elements in their cores. It occurs at 1.5×10⁹ K and densities of 10¹⁰ kg/m³. The principal reactions are:

content

168O

→

2814Si

42He

9.594 MeV

→

3115P

₁H

7.678 MeV

→

3116S

1.500 MeV

→

3014Si

2 ₁H

0.381 MeV

→

3015P

21D

2.409 MeV

Alternatively:

→

3216S

→

2412Mg

2 42He

With the neon burning process an inert core of O-Mg forms in the centre of the star. As the neon burning turns off, the core contracts and heats up to the ignition point for the oxygen burning. In about six months to one year the star consumes its oxygen, accumulating a new core rich in silicon. This core is inert because it is not hot enough for silicon burning. Once oxygen is exhausted, the core cools and contracts. This contraction heats it up to the point that the silicon burning process ignites. Proceeding outward, there is an oxygen burning shell, followed by the neon shell, the carbon shell, the helium shell and the hydrogen shell.

v • d • e Nuclear processes

Radioactive decay	Alpha decay · Beta decay · Gamma radiation · Cluster decay · Double beta decay · Double electron capture · Internal conversion · Isomeric transition · Spontaneous fission

Other processes	Emission processes: Neutron emission · Positron emission · Proton emission Capturing: Electron capture · Neutron capture

Stellar nucleosynthesis	pp-Chain · CNO cycle · α process · Triple-α · Carbon burning · Ne burning · O burning · Si burning · R-process · S-process · P-process · Rp-process

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