The CLR and JVM have goals and philosophies that differ more than you might think. In general, the JVM aims to optimize more dynamic, higher-level code while the CLR gives you more low-level tools to do these kinds of optimizations yourself.
A good example is stack allocation. On the CLR you have explicit stack allocation of custom value types. On the JVM the only custom types are reference types but the JVM can convert heap allocations to stack allocations in certain circumstances through Escape Analysis.
Another example. In Java, methods are virtual by default. On C# at least, they are not. It is much more difficult to optimize virtual method calls because the code that gets executed at a given call site cannot be determined statically.
Under the hood, their execution systems are quite different. Most JVMs (in particular, Hotspot) start out with a bytecode interpreter and only JIT-compile parts of the code that are executed heavily e.g. tight loops. They can also re-compile these over and over each time using execution statistics collected from previous runs to drive optimizations. This allows more optimization effort to be applied to the parts of the program that need it most. This is called adaptive optimization.
The CLR compiles everything up-front only once. It does fewer optimization both because it has more code to compile and so has to be fast and because it doesn't have any statistics of the actual execution paths taken to feed into its optimizations. This approach does have the very significant advantage of allowing you to cache compilation results across processes, which CLR does but JVM does not.
A large percentage of the Hotspot JVM code is dedicated to these adaptive optimizations and they are what put Java in the same performance ballpark as native code for most general purpose computation in the early 2000s. They are also what makes the JVM a decent target for dynamic languages. I'm excluding here the more recent developments of the Dynamic Languages Runtime and invokedynamic as I don't know enough about the DLR.