Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Bugeaud, Yann
and
Mignotte, Maurice
1999.
On integers with identical digits.
Mathematika,
Vol. 46,
Issue. 2,
p.
411.
Bugeaud, Yann
Mignotte, Maurice
and
Roy, Yves
2000.
On the Diophantine equation (xn- 1)/(x-1) = yq.
Pacific Journal of Mathematics,
Vol. 193,
Issue. 2,
p.
257.
Guy, Richard K.
2004.
Unsolved Problems in Number Theory.
Vol. 1,
Issue. ,
p.
209.
BUGEAUD, YANN
LUCA, FLORIAN
MIGNOTTE, MAURICE
and
SIKSEK, SAMIR
2005.
ON PERFECT POWERS IN LUCAS SEQUENCES.
International Journal of Number Theory,
Vol. 01,
Issue. 03,
p.
309.
CIPU (BUCHAREST), MIHAI
LUCA (MORELIA), FLORIAN
and
MIGNOTTE (STRASBOURG), MAURICE
2008.
SOLUTIONS OF THE DIOPHANTINE EQUATION xy+yz+zx=n!.
Glasgow Mathematical Journal,
Vol. 50,
Issue. 2,
p.
217.
Yamada, Tomohiro
2010.
A note on the paper by Bugeaud and Laurent “Minoration effective de la distance p-adique entre puissances de nombres algébriques”.
Journal of Number Theory,
Vol. 130,
Issue. 9,
p.
1889.
BENNETT, MICHAEL A.
BUGEAUD, YANN
and
MIGNOTTE, MAURICE
2012.
Perfect powers with few binary digits and related Diophantine problems, II.
Mathematical Proceedings of the Cambridge Philosophical Society,
Vol. 153,
Issue. 3,
p.
525.
ZHANG, ZHONGFENG
and
YUAN, PINGZHI
2012.
ON THE DIOPHANTINE EQUATION axy + byz + czx = 0.
International Journal of Number Theory,
Vol. 08,
Issue. 03,
p.
813.
Chonev, Ventsislav
Ouaknine, Joël
and
Worrell, James
2013.
The orbit problem in higher dimensions.
p.
941.
He, Bo
Togbé, Alain
and
Yang, Shichun
2013.
On the solutions of the exponential Diophantine equationax+by= (m2+ 1)z.
Quaestiones Mathematicae,
Vol. 36,
Issue. 1,
p.
119.
MIYAZAKI, TAKAFUMI
and
TERAI, NOBUHIRO
2014.
ON THE EXPONENTIAL DIOPHANTINE EQUATION.
Bulletin of the Australian Mathematical Society,
Vol. 90,
Issue. 1,
p.
9.
Miyazaki, Takafumi
and
Luca, Florian
2015.
On the system of Diophantine equations (m2−1)r+b2=c2 and (m2−1)x+by=cz.
Journal of Number Theory,
Vol. 153,
Issue. ,
p.
321.
Di, Han
and
Wenpeng, Zhang
2015.
The ternary exponential Diophantine equation concerning Pythagorean triplets.
Quaestiones Mathematicae,
Vol. 38,
Issue. 4,
p.
483.
Terai, Nobuhiro
and
Hibino, Takeshi
2017.
On the exponential Diophantine equation $$(3pm^2-1)^x+(p(p-3)m^2+1)^y=(pm)^z$$ ( 3 p m 2 - 1 ) x + ( p ( p - 3 ) m 2 + 1 ) y = ( p m ) z.
Periodica Mathematica Hungarica,
Vol. 74,
Issue. 2,
p.
227.
BUGEAUD, YANN
2018.
Effective irrationality measures for real and p-adic roots of rational numbers close to 1, with an application to parametric families of Thue–Mahler equations.
Mathematical Proceedings of the Cambridge Philosophical Society,
Vol. 164,
Issue. 1,
p.
99.
Subburam, Sivanarayanapandian
2018.
On the diophantine equation
$$la^x + mb^y = nc^z$$
l
a
x
+
m
b
y
=
n
c
z
.
Research in Number Theory,
Vol. 4,
Issue. 2,
Tingting, Wang
Xiaonan, Wang
and
Yingzhao, Jiang
2018.
An application of the Baker method to Jeśmanowicz’ conjecture on Pythagorean triples.
Revista de la Real Academia de Ciencias Exactas, Físicas y Naturales. Serie A. Matemáticas,
Vol. 112,
Issue. 2,
p.
385.
Hu, Yongzhong
and
Le, Maohua
2018.
An upper bound for the number of solutions of ternary purely exponential diophantine equations.
Journal of Number Theory,
Vol. 183,
Issue. ,
p.
62.
Fujita, Yasutsugu
and
Le, Maohua
2021.
Dem’janenko’s Theorem on Jeśmanowicz’ Conjecture Concerning Pythagorean Triples Revisited.
Bulletin of the Malaysian Mathematical Sciences Society,
Vol. 44,
Issue. 6,
p.
4059.
He, Jinyan
Luo, Jiagui
and
Fei, Shuanglin
2022.
On the exponential Diophantine equation $ (a(a-l)m^{2}+1)^{x}+(alm^{2}-1)^{y} = (am)^{z} $.
AIMS Mathematics,
Vol. 7,
Issue. 4,
p.
7187.