Mortaza Abtahi
Published 2012-11-28, updated 2013-07-05Version 2
We introduce the notion of admissible functions and show that the family of L-functions introduced by Lim in [Nonlinear Anal. 46(2001), 113--120] and the family of test functions introduced by Geraghty in [Proc. Amer. Math. Soc., 40(1973), 604--608] are admissible. Then we prove that if $\phi$ is an admissible function, $(X,d)$ is a complete metric space, and $T$ is a mapping on $X$ such that, for $\alpha(s)=\phi(s)/s$, the condition $1/(1+\alpha(d(x,Tx))) d(x,Tx) < d(x,y)$ implies $d(Tx,Ty) < \phi(d(x,y))$, for all $x,y\in X$, then $T$ has a unique fixed point. We also show that our fixed point theorem characterizes the metric completeness of $X$.
Banach and Suzuki-type fixed point theorems in Generalized $n$-metric spaces with an application
Common best proximity point theorems under proximal $F$-weak dominance in complete metric spaces
Relation-theoretic metrical fixed point theorems under nonlinear contractions
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