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| Autors principals: | , |
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| Format: | Preprint |
| Publicat: |
2025
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| Matèries: | |
| Accés en línia: | https://arxiv.org/abs/2508.01037 |
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| _version_ | 1866909718473080832 |
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| author | Höhn, Gerald Seysen, Martin |
| author_facet | Höhn, Gerald Seysen, Martin |
| contents | We determine the order of the largest of the twenty-six sporadic simple groups known as the Monster, using a straightforward computational approach. The Monster is here defined as a subgroup of the symmetry group of the 196884-dimensional Griess algebra generated by a group of type $2^{1+24}_+.Co_1$ and an additional triality automorphism. Our approach is based on counting arguments for certain idempotents of the Griess algebra called axes. Our proof is self-contained, requiring only established properties of the Conway group as the automorphism group of the Leech lattice, and some of its subgroups.
Although our approach is conceptually simple, it requires extensive calculation inside a 196884-dimensional matrix group that current computer algebra systems cannot easily handle directly. Instead, we use the software package mmgroup, developed by the second author, which supports fast calculations inside the Monster. To our knowledge, this paper contains the first self-contained computation of the order of the Monster.
The Monster also acts on the Moonshine module V^#, which is a vertex operator algebra of central charge c=24. We provide a new proof that the Monster is the full automorphism group of the Griess algebra and of the Moonshine module using Borcherds' proof of the Monstrous Moonshine conjectures. In addition, we show that the Monster has exactly two conjugacy classes of involutions. The order of the Baby Monster, the second largest of the sporadic simple groups, is also determined. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2508_01037 |
| institution | arXiv |
| publishDate | 2025 |
| record_format | arxiv |
| spellingShingle | The Order of the Monster Finite Simple Group Höhn, Gerald Seysen, Martin Group Theory High Energy Physics - Theory Quantum Algebra Representation Theory We determine the order of the largest of the twenty-six sporadic simple groups known as the Monster, using a straightforward computational approach. The Monster is here defined as a subgroup of the symmetry group of the 196884-dimensional Griess algebra generated by a group of type $2^{1+24}_+.Co_1$ and an additional triality automorphism. Our approach is based on counting arguments for certain idempotents of the Griess algebra called axes. Our proof is self-contained, requiring only established properties of the Conway group as the automorphism group of the Leech lattice, and some of its subgroups. Although our approach is conceptually simple, it requires extensive calculation inside a 196884-dimensional matrix group that current computer algebra systems cannot easily handle directly. Instead, we use the software package mmgroup, developed by the second author, which supports fast calculations inside the Monster. To our knowledge, this paper contains the first self-contained computation of the order of the Monster. The Monster also acts on the Moonshine module V^#, which is a vertex operator algebra of central charge c=24. We provide a new proof that the Monster is the full automorphism group of the Griess algebra and of the Moonshine module using Borcherds' proof of the Monstrous Moonshine conjectures. In addition, we show that the Monster has exactly two conjugacy classes of involutions. The order of the Baby Monster, the second largest of the sporadic simple groups, is also determined. |
| title | The Order of the Monster Finite Simple Group |
| topic | Group Theory High Energy Physics - Theory Quantum Algebra Representation Theory |
| url | https://arxiv.org/abs/2508.01037 |