How do you compute the number fields with given discriminant and ramification in Sage?
Sage can access the Jones database of number fields with bounded
ramification and degree less than or equal to 6. It must be
installed separately (database_jones_numfield
).
sage: J = JonesDatabase() # requires optional database sage: J # requires optional database John Jones's table of number fields with bounded ramification and degree <= 6
sage: [(k.degree(), k.disc()) for k in J.unramified_outside([2])] # requires optional database [(1, 1), (2, 8), (2, -4), (2, -8), (4, 2048), (4, -1024), (4, 512), (4, -2048), (4, 256), (4, 2048), (4, 2048)]
List the discriminants of the fields of degree exactly 2 unramified outside 2:
sage: [k.disc() for k in J.unramified_outside([2],2)] # requires optional database [8, -4, -8]
List the discriminants of cubic field in the database ramified exactly at 3 and 5:
sage: [k.disc() for k in J.ramified_at([3,5],3)] # requires optional database [-6075, -6075, -675, -135] sage: factor(6075) 3^5 * 5^2 sage: factor(675) 3^3 * 5^2 sage: factor(135) 3^3 * 5
List all fields in the database ramified at 101:
sage: J.ramified_at(101) # requires optional database [Number Field in a with defining polynomial x^2 - 101, Number Field in a with defining polynomial x^4 - x^3 + 13*x^2 - 19*x + 361, Number Field in a with defining polynomial x^5 - x^4 - 40*x^3 - 93*x^2 - 21*x + 17, Number Field in a with defining polynomial x^5 + x^4 - 6*x^3 - x^2 + 18*x + 4, Number Field in a with defining polynomial x^5 + 2*x^4 + 7*x^3 + 4*x^2 + 11*x - 6]
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