Shielding for sensor configuration and alignment of coordinate measuring machine probe

What is claimed is: 1. A scanning probe for a coordinate measuring machine, the scanning probe comprising: a stylus suspension module, comprising: a stylus coupling portion that is configured to be rigidly coupled to a stylus with a probe tip; and a stylus motion mechanism that enables axial motion of the stylus coupling portion along an axial direction, and rotary motion of the stylus coupling portion about a rotation center; a stylus position detection module configured to be arranged along a central axis that is parallel to the axial direction and nominally aligned with the rotation center, the stylus position detection module comprising: a sensor configuration, comprising: a field generating coil configuration comprising at least one field generating coil; a top axial sensing coil configuration comprising at least one top axial sensing coil; a bottom axial sensing coil configuration comprising at least one bottom axial sensing coil; and a plurality of top rotary sensing coils and a plurality of bottom rotary sensing coils; and a shield configuration that is located around the sensor configuration and comprises electrically conductive material for shielding the sensor configuration; a disruptor configuration comprising a conductive disruptor element that provides a disruptor area, wherein the disruptor element is located along the central axis in a disruptor motion volume and the disruptor element is coupled to the stylus suspension module by a disruptor coupling configuration, wherein the disruptor element moves in the disruptor motion volume relative to an undeflected position in response to a deflection of the stylus suspension module, the disruptor element moving over operating motion ranges +/−Rz along the axial direction in response to the axial motion, and over respective operating motion ranges +/−Rx and +/−Ry along orthogonal X and Y directions that are orthogonal to the axial direction in response to the rotary motion, the field generating coil configuration generating a changing magnetic flux generally along the axial direction in the disruptor motion volume in response to a coil drive signal; and a signal processing and control circuitry module configured to be operably connected to the coils of the stylus position detection module to provide the coil drive signal and to input signals comprising respective signal components provided by the respective rotary and axial sensing coils, and to output signals indicative of an axial position and a rotary position of one or more of the disruptor element, the stylus coupling portion, or the probe tip. 2. The scanning probe of claim 1 , wherein the shield configuration is configured to form an electromagnetic boundary of the sensor configuration. 3. The scanning probe of claim 1 , wherein the shield configuration is configured to reduce crosstalk or other interference that would otherwise be caused by at least one of the components or operations of at least one of the signal processing and control circuitry module or the stylus suspension module and that would otherwise affect the signals of the sensing coils of the sensor configuration if the shield configuration was not present around the sensor configuration. 4. The scanning probe of claim 1 , wherein the shield configuration comprises one or more slots, wherein each slot has dimensions which enable an electrical connector from the signal processing and control circuitry module to pass through the slot in the shield configuration to be received by the sensor configuration, and each slot is oriented along a direction perpendicular to the axial direction, such that a dimension of the slot along the axial direction is smaller than a dimension of the slot along the direction perpendicular to the axial direction. 5. The scanning probe of claim 1 , further comprising a probe cover which surrounds the shield configuration of the stylus position detection module, wherein the probe cover is mechanically isolated from the stylus position detection module with at least a minimum spacing between an inner surface of the probe cover and an outer surface of the shield configuration. 6. The scanning probe of claim 1 , wherein the stylus position detection module further comprises a first mounting portion and the stylus suspension module further comprises a second mounting portion, the first and second mounting portions forming a module mounting configuration in which the second mounting portion is configured to be engaged by the first mounting portion for mounting the stylus position detection module to the stylus suspension module. 7. The scanning probe of claim 6 , wherein the second mounting portion comprises a plurality of upper extension portions and the first mounting portion comprises a plurality of lower extension portions that are configured to be located at least partially beneath the plurality of upper extension portions when the second mounting portion is engaged by the first mounting portion. 8. The scanning probe of claim 7 , wherein the module mounting configuration is configured to enable the plurality of lower extension portions to be slidable beneath the plurality of upper extension portions in X and Y directions when the second mounting portion is engaged by the first mounting portion. 9. The scanning probe of claim 6 , wherein the module mounting configuration is configured to enable the relative position of at least part of the stylus position detection module to be adjusted in the X and Y directions relative to the stylus suspension module for aligning the stylus position detection module with the stylus suspension module. 10. The scanning probe of claim 9 , further comprising a module securing configuration which is configured to rigidly secure the first mounting portion to the second mounting portion for rigidly securing the stylus position detection module to the stylus suspension module after the stylus position detection module has been aligned with the stylus suspension module. 11. The scanning probe of claim 10 , wherein the module securing configuration comprises one or more mechanical fastening configurations that are utilized to rigidly secure the first mounting portion to the second mounting portion. 12. The scanning probe of claim 1 , wherein a disruptor assembly of the scanning probe comprises the disruptor element and the disruptor assembly is rigidly attached to an upper portion of the moving member of the stylus suspension module by the disruptor coupling configuration, the disruptor assembly further comprising an adjustment component which is configured to enable a location of the disruptor element relative to the moving member of the stylus suspension module to be adjusted along the axial direction to achieve a desired alignment in the axial direction within the stylus position detection module after the stylus position detection module is mounted to the stylus suspension module, wherein after the desired alignment is achieved the location of the disruptor element is rigidly fixed relative to the moving member of the stylus suspension module. 13. The scanning probe of claim 12 , wherein the sensor configuration comprises top and bottom coil substrates on which at least some of the top and bottom coils are located, respectively, the top coil substrate comprising a hole which enables at least one of the disruptor element or the adjustment component to be accessed for adjusting the location of the disruptor element before the signal processing and control circuitry module is rigidly coupled to the stylus position detection module as part of assembling the scanning probe. 14. A method, comprising: moving a scann