Antimatter Fuel Rod: Difference between revisions

From the Dyson Sphere Program Wiki
imported>76561198121518784
m (→‎Summary: The new Strange Annihilation Fuel Rod is more powerful)
Tag: 2017 source edit
 
(12 intermediate revisions by 8 users not shown)
Line 1: Line 1:
{{Stub}}
<div style="float: right; clear: right;">
<div style="float: right; clear: right;">
{{:{{PAGENAME}}/ItemInfo}}
{{:{{PAGENAME}}/ItemInfo}}
</div>
</div>
==Summary==
==Summary==
The Antimatter Fuel Rod is the most powerful [[Energy Sources|fuel]] in the game. It can be used in the Icarus Mech fuel chamber or in an [[Artificial Star]].
The Antimatter Fuel Rod is the second-most powerful [[Energy Sources|fuel]] in the game after the [[Strange Annihilation Fuel Rod]]. It can be used in [[Icarus|Icarus's]] fuel chamber or in an [[Artificial Star]].


==Production Chain==
==Production Chain==
Line 15: Line 14:
   {{ItemRecipe
   {{ItemRecipe
     |Out1=Antimatter Fuel Rod
     |Out1=Antimatter Fuel Rod
     |Out1Qty=1
     |Out1Qty=2
     |CraftTime=12 s
     |CraftTime=24 s
     |In1=Antimatter
     |In1=Antimatter
     |In1Qty=10
     |In1Qty=12
     |In2=Hydrogen
     |In2=Hydrogen
     |In2Qty=10
     |In2Qty=12
     |In3=Annihilation Constraint Sphere
     |In3=Annihilation Constraint Sphere
     |In3Qty=1
     |In3Qty=1
     |In4=Titanium Alloy
     |In4=Titanium Alloy
    |In4Qty=1
  }}
}}
|}
===Production Progression Chart===
{{ProgressionChartCollapsible/begin}}
{| class="wikitable" style="text-align:center; background-color:#0b161c
|+ Unipolar Magnet-based production
! Stage 1
! Stage 2
! Stage 3
! Stage 4
! Stage 5
! Stage 6
|-
| {{riq|Unipolar Magnet|40}}
| {{ppc skip}}
|rowspan=2| {{riq|Particle Container|4}}
|rowspan=2| {{ppc skip}}
|rowspan=6| {{riq|Annihilation Constraint Sphere|4}}
|rowspan=10| {{riq|Antimatter Fuel Rod|8}}
|-
| {{riq|Copper Ore|8}}
| {{riq|Copper Ingot|8}}
|-
| {{riq|Silicon Ore|24}}
| {{riq|High-Purity Silicon|16}}
|rowspan=2| {{riq|Microcrystalline Component|8}}
|rowspan=4| {{riq|Processor|4}}
|-
| {{riq|Copper Ore|8}}
| {{riq|Copper Ingot|8}}
|-
| {{riq|Iron Ore|8}}
| {{riq|Iron Ingot|8}}
|rowspan=2| {{riq|Circuit Board|8}}
|-
| {{riq|Copper Ore|4}}
| {{riq|Copper Ingot|4}}
|-
| {{riq|Iron Ore|12}}
| {{riq|Iron Ingot|12}}
| {{riq|Steel|4}}
|rowspan=3| {{riq|Titanium Alloy|4}}
|rowspan=3| {{ppc skip}}
|-
| {{riq|Titanium Ore|8}}
| {{riq|Titanium Ingot|4}}
| {{ppc skip}}
|-
| {{riq|Sulfuric Acid|8}}
| {{ppc skip}}
| {{ppc skip}}
|-
| {{riq|Critical Photon|48}}
| {{riq|Antimatter|48}} {{riq|Hydrogen|48}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
|}
{| class="wikitable" style="text-align:center; background-color:#0b161c
|+ Fire Ice-based production
! Stage 1
! Stage 2
! Stage 3
! Stage 4
! Stage 5
! Stage 6
! Stage 7
! Stage 8
|-
| {{riq|Iron Ore|32}}
| {{riq|Iron Ingot|32}}
| {{ppc skip}}
|rowspan=4| {{riq|Electric Motor|16}}
|rowspan=6| {{riq|Electromagnetic Turbine|8}}
|rowspan=8| {{riq|Particle Container|4}} {{riq|Hydrogen|4}}
|rowspan=12| {{riq|Annihilation Constraint Sphere|4}} {{riq|Hydrogen|4}}
|rowspan=16| {{riq|Antimatter Fuel Rod|8}} {{riq|Hydrogen|4}}
|-
| {{riq|Iron Ore|16}}
| {{riq|Iron Ingot|16}}
| {{riq|Gear|16}}
|-
| {{riq|Iron Ore|16}}
| {{riq|Magnet|16}}
|rowspan=2| {{riq|Magnetic Coil|16}}
|-
| {{riq|Copper Ore|8}}
| {{riq|Copper Ingot|8}}
|-
| {{riq|Iron Ore|16}}
| {{riq|Magnet|16}}
|rowspan=2| {{riq|Magnetic Coil|16}}
|rowspan=2| {{ppc skip}}
|-
| {{riq|Copper Ore|8}}
| {{riq|Copper Ingot|8}}
|-
| {{riq|Copper Ore|8}}
| {{riq|Copper Ingot|8}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
|-
| {{riq|Fire Ice|8}}
| {{riq|Graphene|8}} {{riq|Hydrogen|4}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
|-
| {{riq|Silicon Ore|32}}
| {{riq|High-Purity Silicon|16}}
|rowspan=2| {{riq|Microcrystalline Component|8}}
|rowspan=4| {{riq|Processor|4}}
|rowspan=4| {{ppc skip}}
|rowspan=4| {{ppc skip}}
|-
| {{riq|Copper Ore|8}}
| {{riq|Copper Ingot|8}}
|-
| {{riq|Iron Ore|8}}
| {{riq|Iron Ingot|8}}
|rowspan=2| {{riq|Circuit Board|8}}
|-
| {{riq|Copper Ore|4}}
| {{riq|Copper Ingot|4}}
|-
| {{riq|Iron Ore|12}}
| {{riq|Iron Ingot|12}}
| {{riq|Steel|4}}
|rowspan=3| {{riq|Titanium Alloy|4}}
|rowspan=3| {{ppc skip}}
|rowspan=3| {{ppc skip}}
|rowspan=3| {{ppc skip}}
|-
| {{riq|Titanium Ore|8}}
| {{riq|Titanium Ingot|4}}
| {{ppc skip}}
|-
| {{riq|Sulfuric Acid|8}}
| {{ppc skip}}
| {{ppc skip}}
|-
| {{riq|Critical Photon|48}}
| {{riq|Antimatter|48}} {{riq|Hydrogen|48}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
|}
{| class="wikitable" style="text-align:center; background-color:#0b161c
|+ Coal- and Sulfuric Acid-based production
! Stage 1
! Stage 2
! Stage 3
! Stage 4
! Stage 5
! Stage 6
! Stage 7
! Stage 8
|-
| {{riq|Iron Ore|32}}
| {{riq|Iron Ingot|32}}
| {{ppc skip}}
|rowspan=4| {{riq|Electric Motor|16}}
|rowspan=6| {{riq|Electromagnetic Turbine|8}}
|rowspan=9| {{riq|Particle Container|4}}
|rowspan=13| {{riq|Annihilation Constraint Sphere|4}}
|rowspan=17| {{riq|Antimatter Fuel Rod|8}}
|-
| {{riq|Iron Ore|16}}
| {{riq|Iron Ingot|16}}
| {{riq|Gear|16}}
|-
| {{riq|Iron Ore|16}}
| {{riq|Magnet|16}}
|rowspan=2| {{riq|Magnetic Coil|16}}
|-
| {{riq|Copper Ore|8}}
| {{riq|Copper Ingot|8}}
|-
| {{riq|Iron Ore|16}}
| {{riq|Magnet|16}}
|rowspan=2| {{riq|Magnetic Coil|16}}
|rowspan=2| {{ppc skip}}
|-
| {{riq|Copper Ore|8}}
| {{riq|Copper Ingot|8}}
|-
| {{riq|Copper Ore|8}}
| {{riq|Copper Ingot|8}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
|-
| {{riq|Coal|24}}
| {{riq|Energetic Graphite|12}}
|rowspan=2| {{riq|Graphene|8}}
|rowspan=2| {{ppc skip}}
|rowspan=2| {{ppc skip}}
|-
| {{riq|Sulfuric Acid|4}}
| {{ppc skip}}
|-
| {{riq|Silicon Ore|32}}
| {{riq|High-Purity Silicon|16}}
|rowspan=2| {{riq|Microcrystalline Component|8}}
|rowspan=4| {{riq|Processor|4}}
|rowspan=4| {{ppc skip}}
|rowspan=4| {{ppc skip}}
|-
| {{riq|Copper Ore|8}}
| {{riq|Copper Ingot|8}}
|-
| {{riq|Iron Ore|8}}
| {{riq|Iron Ingot|8}}
|rowspan=2| {{riq|Circuit Board|8}}
|-
| {{riq|Copper Ore|4}}
| {{riq|Copper Ingot|4}}
|-
| {{riq|Iron Ore|12}}
| {{riq|Iron Ingot|12}}
| {{riq|Steel|4}}
|rowspan=3| {{riq|Titanium Alloy|4}}
|rowspan=3| {{ppc skip}}
|rowspan=3| {{ppc skip}}
|rowspan=3| {{ppc skip}}
|-
| {{riq|Titanium Ore|8}}
| {{riq|Titanium Ingot|4}}
| {{ppc skip}}
|-
| {{riq|Sulfuric Acid|8}}
| {{ppc skip}}
| {{ppc skip}}
|-
| {{riq|Critical Photon|48}}
| {{riq|Antimatter|48}} {{riq|Hydrogen|48}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
|}
{| class="wikitable" style="text-align:center; background-color:#0b161c
|+Crude Oil- and Sulfuric Acid-based production
!Stage 1
!Stage 2
!Stage 3
!Stage 4
!Stage 5
!Stage 6
! Stage 7
! Stage 8
|-
| {{riq|Iron Ore|32}}
| {{riq|Iron Ingot|32}}
| {{ppc skip}}
|rowspan=4| {{riq|Electric Motor|16}}
|rowspan=6| {{riq|Electromagnetic Turbine|8}}
|rowspan=9| {{riq|Particle Container|4}} {{riq|Hydrogen|18}}
|rowspan=13| {{riq|Annihilation Constraint Sphere|4}} {{riq|Hydrogen|18}}
|rowspan=17| {{riq|Antimatter Fuel Rod|8}} {{riq|Hydrogen|18}}
|-
| {{riq|Iron Ore|16}}
| {{riq|Iron Ingot|16}}
| {{riq|Gear|16}}
|-
| {{riq|Iron Ore|16}}
| {{riq|Magnet|16}}
|rowspan=2| {{riq|Magnetic Coil|16}}
|-
| {{riq|Copper Ore|8}}
| {{riq|Copper Ingot|8}}
|-
| {{riq|Iron Ore|16}}
| {{riq|Magnet|16}}
|rowspan=2| {{riq|Magnetic Coil|16}}
|rowspan=2| {{ppc skip}}
|-
| {{riq|Copper Ore|8}}
| {{riq|Copper Ingot|8}}
|-
| {{riq|Copper Ore|8}}
| {{riq|Copper Ingot|8}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
|-
| {{riq|Crude Oil|12}}
| {{riq|Refined Oil|12}} {{riq|Hydrogen|6}}
| {{riq|Energetic Graphite|12}} {{riq|Hydrogen|18}}
|rowspan=2| {{riq|Graphene|8}} {{riq|Hydrogen|18}}
|rowspan=2| {{ppc skip}}
|-
| {{riq|Sulfuric Acid|4}}
| {{ppc skip}}
| {{ppc skip}}
|-
| {{riq|Silicon Ore|32}}
| {{riq|High-Purity Silicon|16}}
|rowspan=2| {{riq|Microcrystalline Component|8}}
|rowspan=4| {{riq|Processor|4}}
|rowspan=4| {{ppc skip}}
|rowspan=4| {{ppc skip}}
|-
| {{riq|Copper Ore|8}}
| {{riq|Copper Ingot|8}}
|-
| {{riq|Iron Ore|8}}
| {{riq|Iron Ingot|8}}
|rowspan=2| {{riq|Circuit Board|8}}
|-
| {{riq|Copper Ore|4}}
| {{riq|Copper Ingot|4}}
|-
| {{riq|Iron Ore|12}}
| {{riq|Iron Ingot|12}}
| {{riq|Steel|4}}
|rowspan=3| {{riq|Titanium Alloy|4}}
|rowspan=3| {{ppc skip}}
|rowspan=3| {{ppc skip}}
|rowspan=3| {{ppc skip}}
|-
| {{riq|Titanium Ore|8}}
| {{riq|Titanium Ingot|4}}
| {{ppc skip}}
|-
| {{riq|Sulfuric Acid|8}}
| {{ppc skip}}
| {{ppc skip}}
|-
| {{riq|Critical Photon|48}}
| {{riq|Antimatter|48}} {{riq|Hydrogen|48}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
|}
'''Note:''' [[Hydrogen]] created during Crude Oil-based production must be recycled through the system to ensure full efficiency.  Hydrogen quantity shown in Stage 8 is remaining surplus Hydrogen which can be diverted elsewhere.
{{ProgressionChartCollapsible/end}}
==Used In ==
{{ProductionChainTable/head}}
{{ProductionChain
|Building=Assembling Machine
|Replicator=No
|Technology=High-Density Controlling Annihilation
|Recipe=
  {{ItemRecipe
    |Out1=Strange Annihilation Fuel Rod
    |Out1Qty=1
    |CraftTime=32 s
    |In1=Antimatter Fuel Rod
    |In1Qty=8
    |In2=Core Element
    |In2Qty=1
    |In3=Strange Matter
    |In3Qty=2
    |In4=Frame Material
     |In4Qty=1
     |In4Qty=1
   }}
   }}
Line 30: Line 397:


==Player Tips & Tricks==
==Player Tips & Tricks==
None available yet
Compared to the [[Accumulator|Full Accumulator]] and [[Deuteron Fuel Rod]], the next best fuel sources, Antimatter Fuel Rods are surprisingly simple to produce. They do not require complex [[Super-Magnetic Ring|Super-Magnetic Rings]], and [[Particle Container|Particle Containers]] are trivial to produce once the player gains access to [[Unipolar Magnet|Unipolar Magnets]].
 


{{Item Navbox}}
[[Category:Item]]
[[Category:Item]]
[[Category:Components]]
[[Category:End Product]]
[[Category:Fuel]]
[[Category:Fuel]]
[[Category:End Product]]

Latest revision as of 16:28, 9 April 2024

Antimatter Fuel Rod
End Product, Fuel
Make antimatter into a more stable fuel rod using the strong restraint of the annihilation constraint sphere. Utilize its powerful energy will more safely.
Icon Antimatter Fuel Rod.png
Fuel TypeMass Energy
Energy7.20 GJ
Fuel Chamber Gen.+500%
Made InAssembler
 Cannot make in replicator
Stack Size30

Icon Antimatter Fuel Rod.png
2
24 s
Icon Antimatter.png
12
Icon Hydrogen.png
12
Icon Annihilation Constraint Sphere.png
1
Icon Titanium Alloy.png
1

Summary

The Antimatter Fuel Rod is the second-most powerful fuel in the game after the Strange Annihilation Fuel Rod. It can be used in Icarus's fuel chamber or in an Artificial Star.

Production Chain

Recipe Building Replicator? Technology
Icon Antimatter Fuel Rod.png
2
24 s
Icon Antimatter.png
12
Icon Hydrogen.png
12
Icon Annihilation Constraint Sphere.png
1
Icon Titanium Alloy.png
1
Icon Assembling Machine Mk.I.pngIcon Assembling Machine Mk.II.pngIcon Assembling Machine Mk.III.pngIcon Re-composing Assembler.png
Tech Controlled Annihilation Reaction.png

Production Progression Chart

For more information on reading and using these charts, see Production Progression Chart.
Click here to show or hide the Production Progression Charts.
Unipolar Magnet-based production
Stage 1 Stage 2 Stage 3 Stage 4 Stage 5 Stage 6
Icon Unipolar Magnet.png
40
White arrow right.svg
Icon Particle Container.png
4
White arrow right.svg
Icon Annihilation Constraint Sphere.png
4
Icon Antimatter Fuel Rod.png
8
Icon Copper Ore.png
8
Icon Copper Ingot.png
8
Icon Silicon Ore.png
24
Icon High-Purity Silicon.png
16
Icon Microcrystalline Component.png
8
Icon Processor.png
4
Icon Copper Ore.png
8
Icon Copper Ingot.png
8
Icon Iron Ore.png
8
Icon Iron Ingot.png
8
Icon Circuit Board.png
8
Icon Copper Ore.png
4
Icon Copper Ingot.png
4
Icon Iron Ore.png
12
Icon Iron Ingot.png
12
Icon Steel.png
4
Icon Titanium Alloy.png
4
White arrow right.svg
Icon Titanium Ore.png
8
Icon Titanium Ingot.png
4
White arrow right.svg
Icon Sulfuric Acid.png
8
White arrow right.svg White arrow right.svg
Icon Critical Photon.png
48
Icon Antimatter.png
48
Icon Hydrogen.png
48
White arrow right.svg White arrow right.svg White arrow right.svg
Fire Ice-based production
Stage 1 Stage 2 Stage 3 Stage 4 Stage 5 Stage 6 Stage 7 Stage 8
Icon Iron Ore.png
32
Icon Iron Ingot.png
32
White arrow right.svg
Icon Electric Motor.png
16
Icon Electromagnetic Turbine.png
8
Icon Particle Container.png
4
Icon Hydrogen.png
4
Icon Annihilation Constraint Sphere.png
4
Icon Hydrogen.png
4
Icon Antimatter Fuel Rod.png
8
Icon Hydrogen.png
4
Icon Iron Ore.png
16
Icon Iron Ingot.png
16
Icon Gear.png
16
Icon Iron Ore.png
16
Icon Magnet.png
16
Icon Magnetic Coil.png
16
Icon Copper Ore.png
8
Icon Copper Ingot.png
8
Icon Iron Ore.png
16
Icon Magnet.png
16
Icon Magnetic Coil.png
16
White arrow right.svg
Icon Copper Ore.png
8
Icon Copper Ingot.png
8
Icon Copper Ore.png
8
Icon Copper Ingot.png
8
White arrow right.svg White arrow right.svg White arrow right.svg
Icon Fire Ice.png
8
Icon Graphene.png
8
Icon Hydrogen.png
4
White arrow right.svg White arrow right.svg White arrow right.svg
Icon Silicon Ore.png
32
Icon High-Purity Silicon.png
16
Icon Microcrystalline Component.png
8
Icon Processor.png
4
White arrow right.svg White arrow right.svg
Icon Copper Ore.png
8
Icon Copper Ingot.png
8
Icon Iron Ore.png
8
Icon Iron Ingot.png
8
Icon Circuit Board.png
8
Icon Copper Ore.png
4
Icon Copper Ingot.png
4
Icon Iron Ore.png
12
Icon Iron Ingot.png
12
Icon Steel.png
4
Icon Titanium Alloy.png
4
White arrow right.svg White arrow right.svg White arrow right.svg
Icon Titanium Ore.png
8
Icon Titanium Ingot.png
4
White arrow right.svg
Icon Sulfuric Acid.png
8
White arrow right.svg White arrow right.svg
Icon Critical Photon.png
48
Icon Antimatter.png
48
Icon Hydrogen.png
48
White arrow right.svg White arrow right.svg White arrow right.svg White arrow right.svg White arrow right.svg
Coal- and Sulfuric Acid-based production
Stage 1 Stage 2 Stage 3 Stage 4 Stage 5 Stage 6 Stage 7 Stage 8
Icon Iron Ore.png
32
Icon Iron Ingot.png
32
White arrow right.svg
Icon Electric Motor.png
16
Icon Electromagnetic Turbine.png
8
Icon Particle Container.png
4
Icon Annihilation Constraint Sphere.png
4
Icon Antimatter Fuel Rod.png
8
Icon Iron Ore.png
16
Icon Iron Ingot.png
16
Icon Gear.png
16
Icon Iron Ore.png
16
Icon Magnet.png
16
Icon Magnetic Coil.png
16
Icon Copper Ore.png
8
Icon Copper Ingot.png
8
Icon Iron Ore.png
16
Icon Magnet.png
16
Icon Magnetic Coil.png
16
White arrow right.svg
Icon Copper Ore.png
8
Icon Copper Ingot.png
8
Icon Copper Ore.png
8
Icon Copper Ingot.png
8
White arrow right.svg White arrow right.svg White arrow right.svg
Icon Coal.png
24
Icon Energetic Graphite.png
12
Icon Graphene.png
8
White arrow right.svg White arrow right.svg
Icon Sulfuric Acid.png
4
White arrow right.svg
Icon Silicon Ore.png
32
Icon High-Purity Silicon.png
16
Icon Microcrystalline Component.png
8
Icon Processor.png
4
White arrow right.svg White arrow right.svg
Icon Copper Ore.png
8
Icon Copper Ingot.png
8
Icon Iron Ore.png
8
Icon Iron Ingot.png
8
Icon Circuit Board.png
8
Icon Copper Ore.png
4
Icon Copper Ingot.png
4
Icon Iron Ore.png
12
Icon Iron Ingot.png
12
Icon Steel.png
4
Icon Titanium Alloy.png
4
White arrow right.svg White arrow right.svg White arrow right.svg
Icon Titanium Ore.png
8
Icon Titanium Ingot.png
4
White arrow right.svg
Icon Sulfuric Acid.png
8
White arrow right.svg White arrow right.svg
Icon Critical Photon.png
48
Icon Antimatter.png
48
Icon Hydrogen.png
48
White arrow right.svg White arrow right.svg White arrow right.svg White arrow right.svg White arrow right.svg
Crude Oil- and Sulfuric Acid-based production
Stage 1 Stage 2 Stage 3 Stage 4 Stage 5 Stage 6 Stage 7 Stage 8
Icon Iron Ore.png
32
Icon Iron Ingot.png
32
White arrow right.svg
Icon Electric Motor.png
16
Icon Electromagnetic Turbine.png
8
Icon Particle Container.png
4
Icon Hydrogen.png
18
Icon Annihilation Constraint Sphere.png
4
Icon Hydrogen.png
18
Icon Antimatter Fuel Rod.png
8
Icon Hydrogen.png
18
Icon Iron Ore.png
16
Icon Iron Ingot.png
16
Icon Gear.png
16
Icon Iron Ore.png
16
Icon Magnet.png
16
Icon Magnetic Coil.png
16
Icon Copper Ore.png
8
Icon Copper Ingot.png
8
Icon Iron Ore.png
16
Icon Magnet.png
16
Icon Magnetic Coil.png
16
White arrow right.svg
Icon Copper Ore.png
8
Icon Copper Ingot.png
8
Icon Copper Ore.png
8
Icon Copper Ingot.png
8
White arrow right.svg White arrow right.svg White arrow right.svg
Icon Crude Oil.png
12
Icon Refined Oil.png
12
Icon Hydrogen.png
6
Icon Energetic Graphite.png
12
Icon Hydrogen.png
18
Icon Graphene.png
8
Icon Hydrogen.png
18
White arrow right.svg
Icon Sulfuric Acid.png
4
White arrow right.svg White arrow right.svg
Icon Silicon Ore.png
32
Icon High-Purity Silicon.png
16
Icon Microcrystalline Component.png
8
Icon Processor.png
4
White arrow right.svg White arrow right.svg
Icon Copper Ore.png
8
Icon Copper Ingot.png
8
Icon Iron Ore.png
8
Icon Iron Ingot.png
8
Icon Circuit Board.png
8
Icon Copper Ore.png
4
Icon Copper Ingot.png
4
Icon Iron Ore.png
12
Icon Iron Ingot.png
12
Icon Steel.png
4
Icon Titanium Alloy.png
4
White arrow right.svg White arrow right.svg White arrow right.svg
Icon Titanium Ore.png
8
Icon Titanium Ingot.png
4
White arrow right.svg
Icon Sulfuric Acid.png
8
White arrow right.svg White arrow right.svg
Icon Critical Photon.png
48
Icon Antimatter.png
48
Icon Hydrogen.png
48
White arrow right.svg White arrow right.svg White arrow right.svg White arrow right.svg White arrow right.svg

Note: Hydrogen created during Crude Oil-based production must be recycled through the system to ensure full efficiency. Hydrogen quantity shown in Stage 8 is remaining surplus Hydrogen which can be diverted elsewhere.

Used In

Recipe Building Replicator? Technology
Icon Strange Annihilation Fuel Rod.png
1
32 s
Icon Antimatter Fuel Rod.png
8
Icon Core Element.png
1
Icon Strange Matter.png
2
Icon Frame Material.png
1
Icon Assembling Machine Mk.I.pngIcon Assembling Machine Mk.II.pngIcon Assembling Machine Mk.III.pngIcon Re-composing Assembler.png
Tech High-Density Controlling Annihilation.png

Player Tips & Tricks

Compared to the Full Accumulator and Deuteron Fuel Rod, the next best fuel sources, Antimatter Fuel Rods are surprisingly simple to produce. They do not require complex Super-Magnetic Rings, and Particle Containers are trivial to produce once the player gains access to Unipolar Magnets.


🍪 We use cookies to keep session information to provide you a better experience.