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A374090
a(n) is the smallest nonnegative integer k where exactly n ordered pairs of positive integers (x, y) exist such that x^2 + x*y + y^2 = k.
3
0, 3, 7, 147, 91, 7203, 637, 352947, 1729, 24843, 31213, 847425747, 12103, 41523861603, 405769, 1217307, 53599, 99698791708803, 157339, 4885240793731347, 593047, 59648043
OFFSET
0,2
COMMENTS
a(n) is the smallest nonnegative k such that A374088(k) = n.
From Chai Wah Wu, Jun 28 2024: (Start)
If x <> y and x^2 + x*y + y^2 = a(n), then (x, y) and (y, x) both count as solutions. Therefore if a(n) exists, then a(n) is of the form 3*m^2 if and only if n is odd. This also implies that a(2*n) = A374094(n).
a(25) = 205724883.
a(27) = 8968323.
a(33) = 143214951243.
a(35) = 10080519267.
a(45) = 439447827.
a(49) = 1703607756123.
a(63) = 21532943523.
a(75) = 74266682763.
a(81) = 8618558403.
a(135) = 422309361747.
(End)
From David A. Corneth, Jun 29 2024: (Start)
a(19) <= 3*7^18.
a(22) <= 3672178237.
a(24) = 375193.
a(26) = 2989441 <= 179936733613.
a(28) = 29059303.
a(30) = 7709611.
a(32) = 1983163.
a(34) <= 432028097404813.
a(36) = 4877509.
Conjecture: Let q_i be the i-th prime of the form 3*k + 1 and let m = Prod_{j=1, t} b_j, a factorization of m into factors > 1.
Let f(m) = Prod_{j = 1..t} q_i^(b_(t+1-j)-1).
Then for even n we have a(n) = min(f(n), f(n+1))
and for odd n we have a(n) = 3*f(n).
Example for n = 22 we might factor 22 = 11*2. The first two primes of the form 3*k + 1 are 7 and 13. So we would have a(22) = min(7^10*13, 7^22).
a(14) = min(f(14), f(15)) = min(7^6 * 13, 7^4 * 13^2) = 405769. (End)
FORMULA
a(2*n) = A374094(n).
PROG
(Python)
from itertools import count
from sympy.abc import x, y
from sympy.solvers.diophantine.diophantine import diop_quadratic
def A374090(n): return next(m for m in (3*k**2 if n&1 else k for k in count(0)) if sum(1 for d in diop_quadratic(x*(x+y)+y**2-m) if d[0]>0 and d[1]>0) == n) # Chai Wah Wu, Jun 28 2024
CROSSREFS
KEYWORD
nonn,more
AUTHOR
Seiichi Manyama, Jun 28 2024
EXTENSIONS
a(11), a(13) from Chai Wah Wu, Jun 28 2024
a(17) from Bert Dobbelaere, Jun 28 2024
a(19) from Bert Dobbelaere, Jun 30 2024
STATUS
approved