Nihonium
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| Nihonium | |||||||||
| View static image | |||||||||
| Pattern type | Oscillator | ||||||||
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| Number of cells | 106 | ||||||||
| Bounding box | 58 × 37 | ||||||||
| Period | 113 (mod: 113) | ||||||||
| Heat | 43.2 | ||||||||
| Volatility | 0.93 | 0.93 | ||||||||
| Kinetic symmetry | Unspecified | ||||||||
| Discovered by | Jeremy Tan | ||||||||
| Year of discovery | 2021 | ||||||||
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Nihonium[note 1] is the smallest known period-113 oscillator, found by Jeremy Tan on July 5, 2021.[1] It is an emu comprised of two R64 and two R49 conduits populated with two Herschels whose first natural gliders annihilate each other; both Herschels must be present for the oscillator to work, but one Herschel may be advanced in time to yield a period-226 oscillator, the least-populous of them at 107 cells called nihonium*.
| Nihonium*, the smallest-known period-226 oscillator (click above to open LifeViewer) RLE: here Plaintext: here |
A 52-glider synthesis was found for nihonium on the day of its discovery.[2]
See also
Notes
- ↑ Named after the element with atomic number 113, which in turn is named after Japan.
References
- ↑ Jeremy Tan (July 5, 2021). Re: Oscillator Discussion Thread (discussion thread) at the ConwayLife.com forums
- ↑ Jeremy Tan (July 5, 2021). Re: Synthesising Oscillators (discussion thread) at the ConwayLife.com forums
External links
Categories:
- Patterns
- Oscillators with between 100 and 109 cells
- Periodic objects with minimum population between 100 and 109
- Patterns with between 100 and 109 cells
- Patterns found by Jeremy Tan
- Patterns found in 2021
- Patterns that can be constructed with between 50 and 59 gliders
- Oscillators
- Oscillators with period 113
- Prime-period oscillators
- Oscillators with mod 113
- Oscillators with heat 43
- Oscillators with volatility 0.93
- Oscillators with strict volatility 0.93
- Patterns with 180-degree rotation symmetry