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===The magic ratio=== | ===The magic ratio=== | ||
Disclaimers and safety pronouncements, aside, let's get to what you actually need when doing fusion. There are different recipes for achieving fusion, but the most well-tested, consistent and widely used recipe is the '''6 plasma : 2 CO2: 1 Tritium''' recipe popularized by the first atmosians who birthed stars. One such canister should have 6000 moles of plasma, 2000 moles of CO2 and 1000 moles of tritium - the amount does not need to be exact and can vary by as much as 10% in ratio, as long as the 3:1 ratio between plasma and CO2 is preserved. Technically, a canister can fuse as long as it has a '''minimum of 250 moles of plasma, 250 moles of CO2 and 1 mole of trit''', but the results are not particularly useful or exciting. Any amount of plasma and CO2 are okay, provided that they follow the ratio, and the fusion reaction will continue until it has less than 250 moles of CO2 or plasma, or it runs out of tritium | Disclaimers and safety pronouncements, aside, let's get to what you actually need when doing fusion. There are different recipes for achieving fusion, but the most well-tested, consistent and widely used recipe is the '''6 plasma : 2 CO2: 1 Tritium''' recipe popularized by the first atmosians who birthed stars. One such canister should have 6000 moles of plasma, 2000 moles of CO2 and 1000 moles of tritium - the amount does not need to be exact and can vary by as much as 10% in ratio, as long as the 3:1 ratio between plasma and CO2 is preserved. Technically, a canister can fuse as long as it has a '''minimum of 250 moles of plasma, 250 moles of CO2 and 1 mole of trit''', but the results are not particularly useful or exciting. Any amount of plasma and CO2 are okay, provided that they follow the ratio, and the fusion reaction will continue until it has less than 250 moles of CO2 or plasma, or it runs out of tritium. Once your canister is nicely made, heat it up to 10.000°K via heat pipe exposure over an actively burning tritium chamber (the incinerator has all the necessary equipment, and is probably where you made your tritium to begin with), then '''please unwrench''' it when it hits the 10.000°K mark. | ||
Update: The 6:2:1 ratio is still generally very successful and widely used, but a more precise method of creating mixes that work has determined that not all 6:2:1 ratios are optimal. See the section on the mathematical background for more information. If starting out, stick to 6:2:1 until you're confident enough to experiment a bit more. | |||
===When it works=== | ===When it works=== |
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