Hard disk drive with contact detection using a spin torque oscillator

What is claimed is: 1. A hard-disk drive, comprising: a head slider comprising a read/write head comprising a spin torque oscillator (STO) element; a magnetic-recording disk rotatably mounted on a spindle; a voice coil motor configured to move the head slider to access portions of the magnetic-recording disk; and at least one an electronic component configured to: monitor the resistance of said STO element, and detect a contact event between said head slider and said magnetic-recording disk based on said resistance of said STO element and based on different respective criteria depending on whether a read operation is being performed or a write operation is being performed. 2. The hard-disk drive of claim 1 , wherein said electronic component is a first electronic component and is further configured to output a resistance value of said STO element, said hard-disk drive further comprising: a second electronic component configured to: receive said resistance value output from said first electronic component, and estimate a non-zero spacing between said head slider and said magnetic-recording disk based on said resistance value. 3. The hard-disk drive of claim 2 , wherein said second electronic component is further configured to estimate the non-zero spacing between said head slider and said magnetic-recording disk based on different criteria depending on whether a read operation is being performed or a write operation is being performed. 4. The hard-disk drive of claim 2 , wherein said head slider further comprises an embedded contact sensor (ECS) element; wherein said first electronic component is further configured to monitor and output the resistance of said ECS element; and wherein said second electronic component is further configured to estimate the spacing between said head slider and said magnetic-recording disk based on said resistance of said STO element and said resistance of said ECS element. 5. The hard-disk drive of claim 1 , wherein said electronic component is further configured to apply a first current to said STO element for detecting a contact event during a read operation and to apply a different second current to said STO element for detecting a contact event during a write operation. 6. The hard-disk drive of claim 1 , wherein said STO element is positioned between a main write pole and a magnetic shield of said read/write head. 7. An electronic component configured for use in a hard-disk drive, said electronic component comprising a memory and a processor, the memory embodying one or more sequences of instructions which, when executed by the processor, cause performance of: monitoring the resistance of a spin torque oscillator (STO) element positioned in a read/write head of said hard-disk drive; and detecting a contact event between a head slider and a magnetic-recording disk based on said resistance of said STO element and based on different respective criteria depending on whether a read operation is being performed or a write operation is being performed. 8. The electronic component of claim 7 , wherein said one or more sequences of instructions which, when executed, cause performance of applying a first current to said STO element for detecting a contact event during a read operation and applying a different second current to said STO element for detecting a contact event during a write operation. 9. An electronic component configured for use in a hard-disk drive, said electronic component comprising a memory and a processor, the memory embodying one or more sequence of instructions which, when executed by the processor, cause performance of: receiving a resistance value output from an electronic component configured to monitor the resistance of a spin torque oscillator (STO) element positioned in a read/write head of said hard-disk drive, and estimating a non-zero spacing between a head slider and a magnetic-recording disk of said hard-disk drive based on said resistance value and based on different criteria depending on whether a read operation is being performed or a write operation is being performed. 10. A method for flying height sensing in a hard-disk drive comprising a head slider having an embedded spin torque oscillator (STO), the method comprising: monitoring the resistance of said STO element; and detecting a contact event between said head slider and a magnetic-recording disk of said hard-disk drive based on said resistance of said STO element and based on different criteria depending on whether a read operation is being performed or a write operation is being performed. 11. The method of claim 10 , further comprising: estimating a non-zero spacing between said head slider and a magnetic-recording disk based on said resistance of said STO. 12. The method of claim 11 , wherein said estimating further comprises estimating the non-zero spacing between said head slider and said magnetic-recording disk based on different criteria depending on whether a read operation is being performed or a write operation is being performed. 13. The hard disk drive of claim 1 , wherein said different respective criteria are based on corresponding STO element nominal temperatures associated with a read operation and with a write operation, respectively. 14. The method of claim 11 , wherein said estimating further comprises estimating the non-zero spacing based on spacing-based temperature changes in said STO element.