Anti-whirl stabilization tools

What is claimed is: 1. A stabilizer, comprising: an outer collar; an inner sleeve at least partially within the outer collar; and a locking mechanism including a first configuration in which the outer collar is rotationally fixed to the inner sleeve and a second configuration in which the outer collar is rotationally isolated relative to the inner sleeve, wherein the locking mechanism includes an actuator coupled to a controller. 2. The stabilizer of claim 1 , the locking mechanism including a magnetic clutch. 3. The stabilizer of claim 2 , the magnetic clutch including a plurality of magnets configured to provide magnetic forces between the outer collar and the inner sleeve. 4. The stabilizer of claim 3 , a first magnet of the plurality of magnets being on the outer collar, and a second magnet of the plurality of magnets being on the inner sleeve. 5. The stabilizer of claim 4 , the first magnet being aligned with the second magnet when the locking mechanism is in the first configuration, and out of alignment with the second magnet when the locking mechanism is in the second configuration. 6. The stabilizer of claim 3 , the plurality of magnets including at least two magnets on the outer collar, the at least two magnets being in a same radial plane. 7. The stabilizer of claim 3 , the plurality of magnets including at least two magnets on the outer collar, the at least two magnets being axially spaced along a length of the outer collar. 8. The stabilizer of claim 1 , the locking mechanism including a sensor coupled to the controller and configured to sense at least one of vibrational, torque, or frictional forces on the outer collar, wherein the controller is configured to cause the actuator to selectively move the locking mechanism between the first and second configurations based on data obtained by the sensor. 9. The stabilizer of claim 8 , the sensor configured to sense the at least one of vibrational, torque, or frictional forces on an outer surface of the outer collar. 10. The stabilizer of claim 8 , the controller configured to switch the locking mechanism between the first configuration and second configuration in response to the sensor sensing friction or torque above a threshold. 11. The stabilizer of claim 10 , the threshold being between 0.5 N and kNm and 10 kNm. 12. The stabilizer of claim 11 , the threshold being at least 1.5 kNm. 13. The stabilizer of claim 1 , the locking mechanism configured to switch between the first configuration and the second configuration using passively detected friction or torque. 14. A bottomhole assembly, comprising: a downhole tool; and a stabilizer coupled at least indirectly to the downhole tool, the stabilizer including: an outer collar; an inner sleeve at least partially within the outer collar; and a locking mechanism configured to rotationally fix the outer collar to the inner sleeve in a first configuration and to rotationally isolate the outer collar relative to the inner sleeve in a second configuration, wherein the locking mechanism includes an actuator coupled to a controller. 15. The bottomhole assembly of claim 14 , wherein the downhole tool is a drill bit. 16. The bottomhole assembly of claim 14 , wherein the downhole tool is a downhole motor. 17. The bottomhole assembly of claim 16 , wherein the stabilizer is positioned below the downhole motor. 18. The bottomhole assembly of claim 14 , the inner sleeve including a drill string and the outer collar being coupled to the drill string. 19. A stabilizer, comprising: an outer collar; an inner sleeve at least partially within the outer collar; and a locking mechanism including a first configuration in which the outer collar is rotationally fixed to the inner sleeve and a second configuration in which the outer collar is rotationally isolated relative to the inner sleeve, wherein the locking mechanism is configured to switch between the first configuration and the second configuration using passively detected rotational friction or torque. 20. The stabilizer of claim 19 , wherein the locking mechanism comprises a magnetic clutch having a plurality of magnets, the outer collar comprises a plurality of ribs, and at least one magnet of the plurality of magnets is disposed in each rib of the plurality of ribs. 21. The stabilizer of claim 19 , wherein the outer collar comprises an annular body, a plurality of ribs extending radially from the annular body, and a compressible material disposed between the annular body and each rib of the plurality of ribs.