Blaze said:
Im wondering if plasma is possible to be separated into a positive nucleus and negative electrons and contained within a magnetic bottle ?
If possible, what is the most efficient method of achieving it ?
That is the principle of magnetic confinement in which a gas is heated to hundreds or thousands of times the ionization energy of the nuclei. For example, the ionization energy of hydrogen is 13.6 eV, and hydrogen (and deuterium and tritium) are heated to temperatures (or kinetic energies) of 5 to 100 keV, in the case of a D+T plasma (optimal temperature ~50 keV for fusion. A pure D plasma would require heating to about 200 keV for fusion, and other plasmas require higher temperatures.
Plasma heating can be accomplished by an electrical discharge (high current), a rapidly increasing magnetic field (adiabatic (actually quasi-adiabatic) compression), and/or electromagnetic (e.g., microwave) heating.
For optimal heating one must consider the energy losses, which include recombination (and photon emission), bremsstrahlung radiation, other (cyclotron) radiation, neutral particle loss and conduction losses.
Update/edit: Neutral beam injection is another method of heating (and fueling) a plasma. Fuel atoms are ionized, the nuclei accelerated, then recombined with electrons prior to injection into plasma. Collisions of neutral atoms with electrons and nuclei ionize the neutral atoms and provide heating to the plasma. For stability, a plasma must be held neutral, i.e., the number of electrons must equal the total charges on the nuclei.