Min. Spanning Tree
Problem Description
The cost of the spanning tree is the sum of the weights of all the edges in the tree. There can be many spanning trees. Minimum spanning tree is the spanning tree where the cost is minimum among all the spanning trees. There also can be many minimum spanning trees.
Minimum spanning tree has direct application in the design of networks. It is used in algorithms approximating the travelling salesman problem, multiterminal minimum cut problem and minimumcost weighted perfect matching. Other practical applications are: Cluster Analysis Handwriting recognition Image segmentation
Bounds Chart
Step Chart
Improvement Table
Complexity Classes  Algorithm Paper Links  Lower Bounds Paper Links 

Exp/Factorial  
Polynomial > 3  
Cubic  
Quadratic  Thorup 2000 (2000)
Quick Kruskal algorithm (2006) Kruskal’s algorithm with demandsorting (1991) Prim's algorithm + Fibonacci heaps; Fredman & Tarjan (1957) Hong’s algorithm (2013) CH Algorithm (2004) OBF Algorithm (2011) 

nlogn  Fliter Kruskal algorithm (2009)
CheritonTarjan Algorithm (1976) Yao's algorithm (1975) Kruskal's algorithm (1956) Prim's algorithm + Fibonacci heaps; Fredman & Tarjan (1987) Munro’s algorithm (1971) [ Borůvka's algorithm (1926)] 

Linear  Karger; Klein & Tarjan (1995) (1995)  
logn  Bader & Cong (2006) Parallel Implementation (2006) 