The only problem in your approach is that it does not scale well beyond a certain request rate. If the requests are coming in faster than your server is able to handle them, the number of threads will rise continuously. As each thread adds some overhead and uses CPU time, the time for handling each request will get longer, so the problem will get worse (because the number of threads rises even faster). Eventually no request will be able to get handled anymore because all of the CPU time is wasted with overhead. Probably your application will crash.
The alternative is to use a ThreadPool with a fixed upper bound of threads (which depends on the power of the hardware). If there are more requests than the threads are able to handle, some requests will have to wait too long in the request queue, and will fail due to a timeout. But the application will still be able to handle the rest of the incoming requests.
Fortunately the Java API already provides a nice and flexible ThreadPool implementation, see ThreadPoolExecutor. Using this is probably even easier than implementing everything with your original approach, so no reason not to use it.