3-Dimensional Eksternal Electric Field Effect (Stark Effect) On the Ground State Energy of Tritium Atom
Date
2019-03-10Author
MAHARDIKA, I Ketut
HARIJANTO, Alex
BAHRI, Syamsul
RIDLO, Zainur Rasyid
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Show full item recordAbstract
Tritium Atom is a Radioisotope that has a half-life of 12.3 years. This atom
produces beta decay with a maximum generated energy of 18.598 KeV and an average
energy of 5.7 KeV. Tritium radiation is still relatively safe, so it is widely used in the
field of electronics especially in the development of betavoltaics batteries. This research
will delve into the effect of 3-dimensional external electric field on Tritium energy on
the ground state. The method applied in this research is Rayleigh-Schrodinger
Perturbation Theory, which also encompasses second order correction. In addition, by
reviewing the movement of electrons fast enough to surround the nucleus, then the
relativistic effect will also exert effect to the energy of Tritium atoms. The 3-
dimensional electric field effect (in the x, y and z axis) will give different energy shifts
with the 1-dimensional perturbation effect. This shift of energy will have an impact on
the binding energy of nucleus and electron. The results of mathematical calculations
have proven that a significant shift in energy only occurs in a strong external electric
field, approximately higher than 1 × 1011 𝑉/
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- LSP-Jurnal Ilmiah Dosen [7326]