You should definitely return ElapsedMilliseconds instead of ElapsedTicks. The value returned by ElapsedTicks is dependent upon the Stopwatch frequency, which can be different on different systems. It will not necessarily correspond to the Ticks property of a Timespan or DateTime object.
If you do want the extra resolution of Ticks, you should return
watch.Elapsed.Ticks (i.e. Timestamp.Ticks) instead of
watch.ElapsedTicks (this might be one of the subtlest potential errors in .Net). From MSDN:
Stopwatch ticks are different from
DateTime.Ticks. Each tick in the
DateTime.Ticks value represents one
100-nanosecond interval. Each tick in
the ElapsedTicks value represents the
time interval equal to 1 second
divided by the Frequency.
Other than that, I guess your code is fine, although I think you'd be including some of the method-calling overhead in your measurements, which might be significant if the methods themselves take very little time to execute. Also, you probably would want to exclude the first call to the method from your calculated average, but I'm not sure how you'd do that in your class.
One last point, which would probably not be relevant to most uses of this class: Stopwatch runs a bit fast compared to the system time. On my computer, it gets about 5 seconds (that's seconds, not milliseconds) ahead after 24 hours, and on other machines this drift can be even larger. So it's a little misleading to say it's highly accurate, when it's actually just highly granular. For timing short-duration methods, this obviously wouldn't be a significant problem.
And one more last point, which certainly is relevant: I've often noticed while benchmarking that I'll get a bunch of running times that are all clustered within a narrow range of values (e.g. 80, 80, 79, 82 etc.), but occasionally something else will happen in Windows (like opening another program or my anti-virus kicks on or something) and I'll get a value wildly out of whack with the others (e.g. 80, 80, 79, 271, 80 etc.). I think a simple solution to this outlier problem is to use the median of your measurements instead of the mean. I don't know if Linq supports this automatically or not.