What exactly are "spin-locks"?
Say a resource is protected by a lock ,a thread that wants access to the resource needs to acquire the lock first. If the lock is not available, the thread might repeatedly check if the lock has been freed. During this time the thread busy waits, checking for the lock, using CPU, but not doing any useful work. Such a lock is termed as a spin lock.
When you use regular locks (mutexes, critical sections etc), operating system puts your thread in the WAIT state and preempts it by scheduling other threads on the same core. This has a performance penalty if the wait time is really short, because your thread now has to wait for a preemption to receive CPU time again.
Besides, kernel objects are not available in every state of the kernel, such as in an interrupt handler or when paging is not available etc.
Spinlocks don't cause preemption but wait in a loop ("spin") till the other core releases the lock. This prevents the thread from losing its quantum and continue as soon as the lock gets released. The simple mechanism of spinlocks allows a kernel to utilize it in almost any state.
That's why on a single core machine a spinlock is simply a "disable interrupts" or "raise IRQL" which prevents thread scheduling completely.
Spinlocks ultimately allow kernels to avoid "Big Kernel Lock"s (a lock acquired when core enters kernel and released at the exit) and have granular locking over kernel primitives, causing better multi-processing on multi-core machines thus better performance.
EDIT: A question came up: "Does that mean I should use spinlocks wherever possible?" and I'll try to answer it:
As I mentioned, Spinlocks are only useful in places where anticipated waiting time is shorter than a quantum (read: milliseconds) and preemption doesn't make much sense (e.g. kernel objects aren't available).
If waiting time is unknown, or if you're in user mode Spinlocks aren't efficient. You consume 100% CPU time on the waiting core while checking if a spinlock is available. You prevent other threads from running on that core till your quantum expires. This scenario is only feasible for short bursts at kernel level and unlikely an option for a user-mode application.
Here is a question on SO addressing that: Spinlocks, How Useful Are They?
It is pertty much a loop that keeps going till a certain condition is met:
while(cantGoOn) {};