Physics – Nuclear Physics – Nuclear Theory
Scientific paper
2006-11-26
Phys.Rev.C75:034001,2007
Physics
Nuclear Physics
Nuclear Theory
Scientific paper
10.1103/PhysRevC.75.034001
This paper considers the possibility that two charged particles with an attractive short-ranged potential between them which is not strong enough to form bound states in free space, may bind in uniform magnetic fields. It is shown that in the formal limit where Coulomb repulsion is negligible (q -> 0 and B_0 -> \infty with q B_0 fixed where q is the charge and B_0 the field strength) there always exists a bound state for a system of two identical charged particles in a constant magnetic field, provided that there is a short-range uniformly attractive potential between them. Moreover, it is shown that in this limit {\it any} potential with an attractive s-wave scattering length will posses bound states provided that the range of the potential is much smaller than the characteristic magnetic length, r_0 = (\frac{q B_0}{4})^{-1/2}. For this case, the binding is computed numerically. We estimate the size of the magnetic field needed to approximately reach a regime where the formal limit considered becomes a good approximation to the dynamics. These numerical estimates indicate that two protons in an extremely strong magnetic field such as might be found in a magnetar will bind to form a diproton.
Allor Danielle
Bedaque Paulo
Cohen Thomas D. .
Sebens Charles T.
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