Superheavy elements beyond Einsteinium are created in linear accelerators rather than fusion reactors. Luckily wikipedia has info on how each superheavy element is synthesized.
Normally superheavy elements decay before even a second has passed. Extending their half life can be done by turning them into metastable atoms or nuclear isomers: https://en.wikipedia.org/wiki/Nuclear_isomer
Zalgo's comment: "I have come up with a way to make some radioactive decays impossible. It requires some fancy materials but it can be done (also in the way you said) We'll use every fancy element we can, ideally we want to use the full periodic table and more"
COPIED FROM MY OLD GOOGLE DOCUMENT
Superheavy elements beyond Einsteinium are created in linear accelerators rather than fusion reactors. Luckily wikipedia has info on how each superheavy element is synthesized.
Normally superheavy elements decay before even a second has passed. Extending their half life can be done by turning them into metastable atoms or nuclear isomers: https://en.wikipedia.org/wiki/Nuclear_isomer
Zalgo's comment: "I have come up with a way to make some radioactive decays impossible. It requires some fancy materials but it can be done (also in the way you said) We'll use every fancy element we can, ideally we want to use the full periodic table and more"
Predicted properties of elements 119-184: https://en.wikipedia.org/wiki/Extended_periodic_table#Predicted_properties_of_eighth-period_elements