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Ground state energy as a function of magnetic field, g =w c /w 0 for values of l from 0 (bottom) to 10 (top)

Energy spectrum, ε = E / ĥ w o in zero magnetic field for two values of Coulomb correlation parameter, l = e^2/ ĥ w 0 as a function of angular momentum, |m z |. Ground state energy as a function of magnetic field, g =w c /w 0 for values of l from 0 (bottom) to 10 (top). l =3. l =2.

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Ground state energy as a function of magnetic field, g =w c /w 0 for values of l from 0 (bottom) to 10 (top)

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  1. Energy spectrum, ε = E/ĥwo in zero magnetic field for two values of Coulomb correlation parameter, l=e^2/ĥw0 as a function of angular momentum, |mz| Ground state energy as a function of magnetic field, g =wc/w0 for values of l from 0 (bottom) to 10 (top) l=3 l=2 l=1 l=0 The relative motion (r=|r1-r2|) ground state wave function for quantum dot helium in zero magnetic field for several values of Coulomb parameter, l. The parameter aμ is the parabolic oscillator’s length.

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