Patent Number: 
Section: claims

1. A pair of linear arrays of gamma thermometer (GT) sensors arranged in a nuclear reactor core, the pair comprising:a first linear array of GT sensors, wherein the GT sensors are arranged asymmetrically along a length of the first linear array;a second linear array of GT sensors, wherein the GT sensors are arranged asymmetrically along the second linear array and wherein the second linear array of GT sensors is asymmetrical with respect to the first linear array of GT sensors, andthe first linear array positioned in the reactor core at a first core location and the second instrument housing positioned at a second core location, wherein a line of symmetry of the core extends through a center of the core and the first core location is the same horizontal distance from the line of symmetry as the second core location and wherein the horizontal distance for the first core location is along a line perpendicular to the line of symmetry and the horizontal distance for the second core location is along another line perpendicular to the line of symmetry. 2. The pair of linear arrays as in claim 1 wherein a majority of the GT sensors in the second linear array are in a lower half of the second linear array and a majority of the GT sensors in the first linear array are in an upper half of the first linear array. 3. The pair as in claim 1 wherein the first core location and second core location are at opposites sides of the line of symmetry. 4. A method to collect and present data from gamma thermometer (GT) sensors indicative of a nuclear reactor core, the method comprising:forming a plurality linear GT arrays of GT sensors, wherein an axial positions of the GT sensors in each array is not predetermined prior to forming the array;determining the axial position of each of a plurality of GT sensors arranged in each of the linear GT arrays;storing the axial positions for each GT sensors in a data file associated with the linear GT array;accessing the data file for each of the linear GT arrays using a core monitor software;for each of the linear GT arrays, a determination is made using the core monitor software of the elevation in the core of each of the GT sensors based on the axial positions in the data file;positioning the linear GT arrays in the core;collect data regarding an operating condition of the core from the GT sensors for each linear GT array, andusing the collected data to generate a presentation of a core condition at various core elevations. 5. The method of claim 4 wherein the presentation is a 3-Dimensional (3D) graph of core power at various core nodal positions corresponding to the linear GT arrays. 6. The method of claim 4 further comprising:positioning each of the linear GT arrays in a separate instrument tube;positioning detectors for a Local Power Range Monitor (LPRM) in each of the instrument tubes;for each instrument tube, identifying a one of the GT sensors of the array adjacent each of the detectors, andcalibrating each of the detectors by interpolating signals from GT sensors proximate to each of the detectors. 7. The method of claim 4 wherein forming the plurality linear GT arrays includes placing the GT sensors in a metallic rod and extruding the rod with the GT sensors in the rod. 8. The method of claim 4 wherein positioning the linear GT arrays includes arranging a pair of the GT arrays at core locations at a same distance from a line of symmetry extending through a core axis, wherein the distance is along lines perpendicular to the line of symmetry. 9. The method of claim 8 further comprising applying GT data collected from one array of the pair of GT arrays as having been collected at the other array of the pair of GT arrays. 10. The method of claim 8 wherein at least two of the GT arrays are positioned at a common distance from a line of symmetry extending through an axis of the core, wherein the common distance is along lines perpendicular to the line of symmetry. 11. The method of claim 10 wherein the GT arrays include a first GT array and a second GT array, and the first GT array is at a first core location and the second GT array is at a second core location, wherein a line of symmetry of the core extends through a center of the core and the first core location is the same horizontal distance from the line of symmetry as the second core location and wherein the horizontal distance for the first core location is along a line perpendicular to the line of symmetry and the horizontal distance for the second core location is along another line perpendicular to the line of symmetry, and the method further comprises using data collected from the first GT array as being representative of a condition at the second core location. 12. The method of claim 4 wherein each of the linear GT arrays has at least four GT sensors, and at least one GT sensor is in close proximity to a LPRM. 13. The method of claim 4 wherein the GT sensors in each linear GT array are asymmetrically arranged along an axis of the array.