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%I #60 Feb 10 2024 02:58:35
%S 5,13,29,34,194,433,169,89,1325,7561,2897,6466,37666,14701,985,233,
%T 9077,135137,51641,294685,4400489,1686049,43261,96557,8399329,
%U 48928105,3276509,1278818,7453378,499393,5741,610,62210,2423525,925765,13782649,537169541
%N Alternative version of the Markov tree A327345.
%C The Markov tree is a complete, infinite binary tree. Vertices are labeled by triples. The root vertex is (1, 5, 2). The left child of (a, b, c) is (a, 3*a*b - c, b); its right child is (b, 3*b*c - a, c). The sequence is a triangle read by rows consisting of the middle element of each triple, which is always the largest element of the triple. Row r contains 2^r elements.
%C The tree contains contains exactly one representative of each class of permutation equivalent nonsingular solutions to Markov's equation, a^2 + b^2 + c^2 = 3 * a * b * c. Nonsingular solutions are those in which a, b, and c are three distinct numbers. The two singular triples (1, 1, 1) and (1, 2, 1) are omitted in this sequence.
%C A consequence of Markov's equation is that the recurrence for the tree may be reformulated as follows: the left child of (a, b, c) is (a, (a^2 + b^2) / c, b); its right child is (b, (b^2 + c^2) / a, c).
%C An open problem is to prove the uniqueness conjecture, which asserts that the largest element of a triple determines the other two.
%C Frobenius proposed assigning a rational number index in (0,1) to each vertex of the tree, and hence to each term in this sequence. This is the Farey index, obtained by assigning the triple (0/1, 1/2, 1/1) to the root vertex and using the following rules to assign triples to the rest of the tree: the vertex labeled (u/v, w/x, y/z) with w = u + u and x = v + z has left child (u/v, (u+w)/(v+x), w/x) and right child (w/x, (w+y)/(x+z), y/z). The Farey index is the center element of the triple. Each rational number in (0, 1) appears as the Farey index of exactly one vertex of the tree. The index of a(n) is A007305(n+2) / A007306(n+2).
%C A sequence of leftward steps in the tree produces odd-indexed Fibonacci numbers, A001519, which have Farey indices of the form 1 / n. A sequence of rightward steps in the tree produces odd-indexed Pell numbers, A001653, which have Farey indices of the form (n - 1) / n. A sequence of leftward steps followed by a single rightward step produces A350922, corresponding to Farey indices of the form 2 / (2 * n + 1). Alternating steps right, left, right, left, right, ... produces A064098, which corresponds to Farey indices of the form F(n) / F(n + 1), where F(n) is the n-th Fibonacci number.
%D Martin Aigner, Markov's theorem and 100 years of the uniqueness conjecture. A mathematical journey from irrational numbers to perfect matchings. Springer, 2013. x+257 pp. ISBN: 978-3-319-00887-5; 978-3-319-00888-2 MR3098784.
%H John Tyler Rascoe, <a href="/A368546/b368546.txt">Rows n = 0..10, flattened</a>
%H Martin Aigner, <a href="https://archive.org/details/markovstheorem100000aign">Markov's theorem and 100 years of the uniqueness conjecture. A mathematical journey from irrational numbers to perfect matchings</a>, [archive.org copy of the book].
%e The initial levels of the tree are as follows. (See p. 47 of Aigner's book.)
%e (1,5,2)
%e (1,13,5) (5,29,2)
%e (1,34,13) (13,194,5) (5,433,29) (29,169,2)
%e (1, (34, (13, (194, (5, (433, (29, (169,
%e 89, 1325, 7561, 2897, 6466, 37666, 14701, 985,
%e ,34) 13) 194) 5) 433) 29) 169) 2)
%o (SageMath)
%o def stripUpToFirst1(w):
%o x = w
%o while x % 2 == 0:
%o x = x // 2
%o return(x // 2)
%o def stripUpToFirst0(w):
%o x = w
%o while x % 2 == 1:
%o x = x // 2
%o if x == 0:
%o return(None)
%o else:
%o return(x // 2)
%o @CachedFunction
%o def markovNumber(w):
%o if w == None:
%o return(2)
%o elif w == 0:
%o return(1)
%o elif w == 1:
%o return(5)
%o elif w % 2 == 0:
%o return(3*markovNumber(stripUpToFirst1(w))*markovNumber(w//2) - markovNumber(stripUpToFirst0(w//2)))
%o else:
%o return(3*markovNumber(stripUpToFirst0(w))*markovNumber(w//2) - markovNumber(stripUpToFirst1(w//2)))
%o [markovNumber(w) for w in range(1,38)]
%o (Python)
%o def Mtree(x): return(x[0],(3*x[0]*x[1])-x[2],x[1]), (x[1],(3*x[1]*x[2])-x[0],x[2])
%o def A368546_rowlist(maxrow):
%o A,B = [[(1,5,2)]],[]
%o for n in range(maxrow+1):
%o A.append([])
%o for j in A[n]:
%o B.append(max(j))
%o for k in Mtree(j):
%o A[n+1].append(k)
%o return(B) # _John Tyler Rascoe_, Feb 09 2024
%Y Other presentations of the Markov numbers, Markov triples, or the Markov tree: A002559, A253809, A291694, A305313, A305314, A327345.
%Y Subsequences in the Markov tree: A001519, A001653, A350922, A064098.
%Y Farey tree: A007305, A007306.
%K nonn,tabf
%O 0,1
%A _William P. Orrick_, Jan 04 2024
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