There was actually a really good article I read fairly recently on different types of PRNGs and how they fare in terms of several different randomness tests. Unfortunately, I can't seem to find it now. The gist of it, however, was that the default random number generators in almost every popular programming language are quite naïve and have pretty significant biases.
Another answer already mentions that no PRNG at all, no matter how sophisticated the algorithm, is good enough for cryptographic applications. This is true. Since you mention that this will be used to "select a winning ticket", let's ignore that for now.
The Knuth algorithm used by the .NET
System.Random class is optimized mainly for speed, not random distribution. It is "random enough" for many purposes, which most applications never stray too far from, but in the fields of (a) gaming and (b) statistical simulation, most people seem to think that it is a poor choice. It's better than the LCGs that used to be the default in older libraries, but you still don't want to be using it for something like a lotto.
Don't get fooled into thinking that you just use a crypto source, either. The problem with crypto RNGs is that they fill a stream of bytes, but turning this into a single random integer between x and y requires that you do some modular arithmetic (or rounding - same result either way). And if your random range doesn't divide perfectly evenly into whatever power of 2 is defined by the byte length, then you're going to end up with a bias in the lower numbers. The generated data has high entropy, but your result will be biased.
As a simple example, let's just say you get a "perfect" random number from 1 to 10 and now you want to turn that into a random number between 1 and 7. How do you do it? Simply calculating
result % 7 will be heavily biased toward the numbers 1-3. There are some ways to reduce the bias when using a crypto RNG but the point I'm trying to make is that crypto RNGs are designed for crypto applications, and using one of those for a Monte Carlo simulation isn't usually the best idea.
As far as I know, the most popular "good" PRNG today, which is used commonly in gaming applications, is the Mersenne Twister. There's a .NET implementation here. This algorithm passes all of the Diehard Tests for random distribution; it shows almost no bias and is a good choice when you are using random numbers for probabilistic and statistical applications.
The GNU Scientific Library also has a number of RNG algorithms and, not surprisingly, the Mersenne Twister is at the top of the list. Some of the others are worth looking at for curiosity's sake, though; RANLUX also scores pretty high on the diehard test IIRC.
Eric is correct with his comment, of course; all of this information is for naught if you don't have specific technical requirements on "how random" you need your random numbers to be. I'm using a definition that would be applicable to a relatively low-impact gambling/gaming application (i.e. not a major registered gambling site with millions of visitors per day - there are stricter rules on randomness for those).