GU 3B204 X5076 G04-0 grav17 Calculating gravity waves without wind 1 6370. EARTH RADIUS, KM (6370.) 2 3. big ray 2 1. Ordinary ray 2 2. small ray 3 0. TTRANSMITTER HEIGHT, KM (T=ABOVE TERRAIN) 3 10. TTRANSMITTER HEIGHT, KM (T=ABOVE TERRAIN) 3 10. TRANSMITTER HEIGHT, KM (T=ABOVE TERRAIN) 3 30. TRANSMITTER HEIGHT, KM (T=ABOVE TERRAIN) 3 0. TRANSMITTER HEIGHT, KM (T=ABOVE TERRAIN) 3 5. TRANSMITTER HEIGHT, KM (T=ABOVE TERRAIN) 3 1. TRANSMITTER HEIGHT, KM (T=ABOVE TERRAIN) 4 0. AN KM N. TRANSMITTER LATITUDE, KM 5 0. AN KM E. TRANSMITTER LONGITUDE, KM 6 .44 FQ HZ FREQUENCY, HZ 6 .0044 FQ HZ FREQUENCY, HZ 6 .002 FQ HZ FREQUENCY, HZ 6 .0032 FQ HZ FREQUENCY, HZ 7 .02 FQ HZ INITIAL FREQUENCY, HZ 7 .05 FQ HZ INITIAL FREQUENCY, HZ 7 .01 FQ HZ INITIAL FREQUENCY, HZ 7 .005 FQ HZ INITIAL FREQUENCY, HZ 7 .0044 FQ HZ INITIAL FREQUENCY, HZ 7 0.1 FQ HZ INITIAL FREQUENCY, HZ 7 .001 FQ HZ INITIAL FREQUENCY, HZ 8 .003 FQ HZ FINAL FREQUENCY, HZ 8 .0043 FQ HZ FINAL FREQUENCY, HZ 8 .005 FQ HZ FINAL FREQUENCY, HZ 8 0.1 FQ HZ FINAL FREQUENCY, HZ 8 .001 FQ HZ FINAL FREQUENCY, HZ 9 -.01 FQ HZ STEP IN FREQUENCY, HZ 9 -.001 FQ HZ STEP IN FREQUENCY, HZ 9 -.0001 FQ HZ STEP IN FREQUENCY, HZ 9 -.00001 FQ HZ STEP IN FREQUENCY, HZ 9 .001 FQ HZ STEP IN FREQUENCY, HZ 9 .099 FQ HZ STEP IN FREQUENCY, HZ 9 0. FQ HZ STEP IN FREQUENCY, HZ 10 90. AN DG AZIMUTH ANGLE, DEG 11 90. AN DG INITIAL AZIMUTH ANGLE, DEG 11 45. AN DG INITIAL AZIMUTH ANGLE, DEG 14 40. AN DG ELEVATION ANGLE, DEG 14 10. AN DG ELEVATION ANGLE, DEG 14 90. AN DG ELEVATION ANGLE, DEG 15 -55. AN DG INITIAL ELEVATION ANGLE, DEG 15 0. AN DG INITIAL ELEVATION ANGLE, DEG 15 84. AN DG INITIAL ELEVATION ANGLE, DEG 15 10. AN DG INITIAL ELEVATION ANGLE, DEG 16 45. AN DG FINAL ELEVATION ANGLE, DEG 16 -90. AN DG FINAL ELEVATION ANGLE, DEG 16 180. AN DG FINAL ELEVATION ANGLE, DEG 16 90. AN DG FINAL ELEVATION ANGLE, DEG 16 355. AN DG FINAL ELEVATION ANGLE, DEG 16 96. AN DG FINAL ELEVATION ANGLE, DEG 17 10. AN DG STEP IN ELEVATION ANGLE, DEG 17 1. AN DG STEP IN ELEVATION ANGLE, DEG 17 2. AN DG STEP IN ELEVATION ANGLE, DEG 17 0. AN DG DO NOT STEP ELEVATION ANGLE 17 5. AN DG STEP IN ELEVATION ANGLE, DEG 20 5. RECEIVER HEIGHT, KM 20 500. RECEIVER HEIGHT, KM 20 200. RECEIVER HEIGHT, KM 20 1. RECEIVER HEIGHT, KM 22 5. MAXIMUM NUMBER OF HOPS (1.0) 22 4. MAXIMUM NUMBER OF HOPS (1.0) 22 6. MAXIMUM NUMBER OF HOPS (1.0) 22 1. MAXIMUM NUMBER OF HOPS (1.0) 22 3. MAXIMUM NUMBER OF HOPS (1.0) 23 1.0E07 MAXIMUM NUMBER OF STEPS PER HOP (1000.) 26 600. MAXIMUM RAY HEIGHT, KM (500.) 27 -1. MINIMUM RAY HEIGHT, KM 28 200. MAXIMUM RANGE, KM 28 5000. MAXIMUM RANGE, KM 28 2000. MAXIMUM RANGE, KM 28 3000. MAXIMUM RANGE, KM 28 4000. MAXIMUM RANGE, KM 29 0000100. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 29 0000010. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 33 999. MAXIMUM ABSORPTION, DB (999.999) 42 1.E-09 SINGLE-STEP INTEGRATION ERROR (1.0E-4) 42 1.E-13 SINGLE-STEP INTEGRATION ERROR (1.0E-4) 42 1.E-11 SINGLE-STEP INTEGRATION ERROR (1.0E-4) 42 1.E-07 SINGLE-STEP INTEGRATION ERROR (1.0E-4) 42 1.E-05 SINGLE-STEP INTEGRATION ERROR (1.0E-4) 42 1.E-04 SINGLE-STEP INTEGRATION ERROR (1.0E-4) 44 1.E-05 INITIAL INTEGRATION STEP SIZE, KM (1.0) 44 0.01 INITIAL INTEGRATION STEP SIZE, KM (1.0) 45 1000. MAXIMUM INTEGRATION STEP SIZE, KM (1.0) 45 10. MAXIMUM INTEGRATION STEP SIZE, KM (1.0) 45 1. MAXIMUM INTEGRATION STEP SIZE, KM (1.0) 45 100. MAXIMUM INTEGRATION STEP SIZE, KM (1.0) 46 1.E-10 MINIMUM INTEGRATION STEP SIZE, KM (1.0) 46 1.E-09 MINIMUM INTEGRATION STEP SIZE, KM (1.0) 46 1.E-07 MINIMUM INTEGRATION STEP SIZE, KM (1.0) 46 1.E-06 MINIMUM INTEGRATION STEP SIZE, KM (1.0) 46 1.E-05 MINIMUM INTEGRATION STEP SIZE, KM (1.0) 46 1.E-04 MINIMUM INTEGRATION STEP SIZE, KM (1.0) 46 1.E-03 MINIMUM INTEGRATION STEP SIZE, KM (1.0) 46 1.E-02 MINIMUM INTEGRATION STEP SIZE, KM (1.0) 46 1.E-01 MINIMUM INTEGRATION STEP SIZE, KM (1.0) 46 1.0 MINIMUM INTEGRATION STEP SIZE, KM (1.0) 57 0. PHASE PATH (0=NO; 1=INTEGRATE; 2=INTEGRATE/PRINT) 58 0. ABSORPTION (0=NO; 1=INTEGRATE; 2=INTEGRATE/PRINT) 60 0. PATH LENGTH (0=NO; 1=INTEGRATE; 2=INTEGRATE/PRINT) 65 1.E-10 PRESSURE (0=NO; 1=INTEGRATE; 2=INTEGRATE/PRINT) 71 50. NUMBER OF INTEGRATION STEPS PER PRINT [1.E31] 71 10. NUMBER OF INTEGRATION STEPS PER PRINT [1.E31] 71 1. NUMBER OF INTEGRATION STEPS PER PRINT [1.E31] 71 500. NUMBER OF INTEGRATION STEPS PER PRINT [1.E31] 71 5000. NUMBER OF INTEGRATION STEPS PER PRINT [1.E31] 72 1. OUTPUT RAYSETS (1=YES; 0=NO) 72 0. OUTPUT RAYSETS (1=YES; 0=NO) 73 0. DIAGNOSTIC PRINTOUT (1=YES; 0=NO) 73 1. DIAGNOSTIC PRINTOUT (1=YES; 0=NO) 74 0. PRINT RAY STEPS (0=YES; 1=NO) 75 .15 FULANN LETTER HEIGHT [0.15 IN] 76 1. BINARY RAY OUTPUT (1=YES; 0=NO) 76 0. BINARY RAY OUTPUT (1=YES; 0=NO) 77 57. LINES PER PAGE IN PRINTOUT (66.) 81 -3. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 81 3. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 81 4. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 82 0.5 PLOT-EXPANSION FACTOR [1.0] 82 1.0 PLOT-EXPANSION FACTOR [1.0] 83 0. AN KM N. LATITUDE OF LEFT PLOT EDGE, KM 84 -50. AN KM E. LONGITUDE OF LEFT PLOT EDGE, KM 84 -100. AN KM E. LONGITUDE OF LEFT PLOT EDGE, KM 84 0. AN KM E. LONGITUDE OF LEFT PLOT EDGE, KM 84 -200. AN KM E. LONGITUDE OF LEFT PLOT EDGE, KM 84 -2000. AN KM E. LONGITUDE OF LEFT PLOT EDGE, KM 85 0. AN KM N. LATITUDE OF RIGHT PLOT EDGE, KM 86 50. AN KM E. LONGITUDE OF RIGHT PLOT EDGE, KM 86 200. AN KM E. LONGITUDE OF RIGHT PLOT EDGE, KM 86 2000. AN KM E. LONGITUDE OF RIGHT PLOT EDGE, KM 87 50. AN KM DISTANCE BETWEEN TIC MARKS, KM 87 500. AN KM DISTANCE BETWEEN TIC MARKS, KM 88 100. HEIGHT ABOVE SEA LEVEL OF BOTTOM OF GRAPH, KM 88 120. HEIGHT ABOVE SEA LEVEL OF BOTTOM OF GRAPH, KM 88 0. HEIGHT ABOVE SEA LEVEL OF BOTTOM OF GRAPH, KM 89 100. HEIGHT ABOVE SEA LEVEL OF TOP OF GRAPH, KM 89 130. HEIGHT ABOVE SEA LEVEL OF TOP OF GRAPH, KM 89 200. HEIGHT ABOVE SEA LEVEL OF TOP OF GRAPH, KM 89 500. HEIGHT ABOVE SEA LEVEL OF TOP OF GRAPH, KM 90 1. SOUND SPEED CONTOURS 90 2. WIND SPEED CONTOURS 90 3. VERTICAL COMPONENT WIND CONTOURS 90 4. S. COMPONENT WIND CONTOURS 90 5. E. COMPONENT WIND CONTOURS 90 6. TOPOGRAPHY CONTOURS 90 8. WIND DIRECTION PROFILE 90 11. Square of Brunt-Vaisala frequency PROFILE 90 10. Brunt-Vaisala frequency PROFILE 90 9. Acoustic cutoff frequency PROFILE 90 10. Brunt-Vaisala frequency PROFILE 90 12. Vertical wavenumber PROFILE 90 13. wavelength PROFILE 90 14. phase speed PROFILE 90 9. Acoustic cutoff frequency PROFILE 90 7. TEMPERATURE PROFILE 92 -1.E-03 minimum value 92 1.0E-04 minimum value 92 .018 minimum value 92 .01 minimum value 92 .001 minimum value 92 -.10 minimum value 92 -1.0 minimum value 92 0.001 minimum value 92 0. minimum value 93 1.E-03 maximum value 93 5.E-02 maximum value 93 1.0 E-03 maximum value 93 .02 maximum value 93 .005 maximum value 93 .10 maximum value 93 1.0 maximum value 93 500. maximum value 94 0.01 step in value 94 5.E-04 step in value 94 1.E-02 step in value 94 1.E-04 step in value 94 .002 step in value 94 .0002 step in value 94 .0005 step in value 94 .0005 step in value 94 50. step in value 95 400.3 CONSTANT PHASE INTEGRAL ADDITION VALUE 96 1. DISTANCE BETWEEN VERTICAL TIC MARKS, KM 96 10. DISTANCE BETWEEN VERTICAL TIC MARKS, KM 96 50. DISTANCE BETWEEN VERTICAL TIC MARKS, KM 100 1. WLINEAR WIND MODEL CHECK NUMBER 102 0.1 BACKGROUND WIND DATA SET ID 102 0.0 BACKGROUND WIND DATA SET ID 103 0. LN M UPWARD CONSTANT WIND 104 0. LN M SOUTHWARD CONSTANT WIND 105 0. LN M EASTWARD WIND AT SEA LEVEL 106 0.1 LN M HEIGHT GRADIENT OF EASTWARD WIND, M/S/KM 106 0.0 LN M HEIGHT GRADIENT OF EASTWARD WIND, M/S/KM -1 DATA SUBSET FOR BACKGROUND WIND MODEL A LINEAR EASTWARD WIND PROFILE, ZERO AT SEA LEVEL, 10 M/S AT 100 KM 0 RETURN TO W ARRAY DATA SET -1 DATA SUBSET FOR BACKGROUND WIND MODEL A ZERO WIND 0 RETURN TO W ARRAY DATA SET 125 0. NPCURR model check number (1 May 2003) -2 DATA SUBSET FOR WIND PERTURBATION MODEL A NO WIND PERTURBATION 0 RETURN TO W ARRAY DATA SET 150 1. GAMRTDM SOUND SPEED MODEL CHECK NUMBER 152 1. SOUND SPEED DATA SET ID -3 DATA SUBSET FOR BACKGROUND SOUND-SPEED MODEL A SOUND SPEED IN TERMS OF TEMPERATURE MODEL 0 RETURN TO W ARRAY DATA SET 175 0. NPSPEED MODEL CHECK NUMBER 177 0. SOUND SPEED PERTURBATION DATA SET ID 178 0. FRACTIONAL INCREASE OF SQUARED SOUND SPEED 179 125. HEIGHT OF MAXIMUM INCREASE, KM 180 335. AN KM N. LATITUDE OF MAXIMUM INCREASE, KM 181 125. AN KM E. LONGITUDE OF MAXIMUM INCREASE, KM 182 25. GAUSSIAN WIDTH IN HEIGHT OF INCREASE, KM 183 50. AN KM N-S WIDTH OF THE INCREASE, KM 184 25. AN KM E-W WIDTH OF THE INCREASE, KM -4 DATA SUBSET FOR SOUND-SPEED PERTURBATION MODEL A NO SOUND SPEED PERTURBATION 0 RETURN TO W ARRAY DATA SET 200 8. TTANH6 TEMPERATURE MODEL CHECK NUMBER 202 1. BACKGROUND TEMPERATURE DATA SET ID -5 DATA SUBSET FOR TEMPERATURE MODEL A U.S. STANDARD ATMOSPHERE 1962 TEMPERATURE PROFILE 3 999.0 LN KM LN KM 0. 288.000 0. 15.0000 190.500 10.0000 52.0000 320.000 7.50000 95.0000 191.000 10.0000 165.0000 1451.000 50.0000 300.0000 1586.000 0. 999.0000 0 RETURN TO W ARRAY DATA SET 225 0. NPTEMP TEMPERATURE PERTURBATION MODEL CHECK NUMBER 227 0. TEMPERATURE PERTURBATION DATA SET ID 228 0. FRACTIONAL TEMPERATURE INCREASE 229 0. HEIGHT OF MAXIMUM INCREASE, KM 230 105. AN KM N. LATITUDE OF MAXIMUM INCREASE, KM 231 -105. AN KM E. LONGITUDE OF MAXIMUM INCREASE, KM 232 0. GAUSSIAN WIDTH IN HEIGHT OF INCREASE, KM 233 50. AN KM N-S WIDTH OF THE INCREASE, KM 234 25. AN KM E-W WIDTH OF THE INCREASE, KM -6 DATA SUBSET FOR TEMPERATURE PERTURBATION MODEL A 0% CYLINDRICAL INCREASE IN TEMPERATURE AT 105KM N., 105 KM W 0 RETURN TO W ARRAY DATA SET -6 DATA SUBSET FOR TEMPERATURE PERTURBATION MODEL A NO TEMPERATURE PERTURBATION 0 RETURN TO W ARRAY DATA SET 250 1. MWCONST MOLECULAR WEIGHT MODEL CHECK NUMBER 252 29. MOLECULAR WEIGHT DATA SET ID 253 29. MOLECULAR WEIGHT -7 DATA SUBSET FOR MOLECULAR WEIGHT MODEL A MOLECULAR WEIGHT = 29 0 RETURN TO W ARRAY DATA SET 275 1. RTERR RECEIVER MODEL CHECK NUMBER -8 DATA SUBSET FOR RECEIVER SURFACE MODEL A RECEIVER SURFACE 100 KM ABOVE TERRAIN 0 RETURN TO W ARRAY DATA SET 300 1. GHORIZ TERRAIN MODEL CHECK NUMBER 302 1. TERRAIN MODEL DATA SET ID 303 0. HEIGHT OF THE RIDGE, KM 304 0. N. LATITUDE OF THE RIDGE CENTER 305 30. AN KM HALF-WIDTH OF THE RIDGE, KM -9 DATA SUBSET FOR TERRAIN MODEL A RIDGE 0-KM HIGH, 30-KM WIDE ALONG EQUATOR 0 RETURN TO W ARRAY DATA SET 325 0. NPTERR NO TERRAIN PERTURBATION -10 DATA SUBSET FOR TERRAIN PERTURBATION MODEL A NO TERRAIN PERTURBATION 0 RETURN TO W ARRAY DATA SET 350 0. NSURF MODEL CHECK NUMBER, added 17 Dec 2002 for pcharpo 352 1. NSURF OCEAN SURFACE DATA SET ID, added 17 Dec 2002 -11 DATA SUBSET FOR OCEAN SURFACE MODEL A NO UPPER SURFACE 0 RETURN TO W ARRAY DATA SET 375 0. NPSURF MODEL CHECK NUMBER, added 17 Dec 2002 for pcharpo -12 DATA SUBSET FOR OCEAN SURFACE PERTURBATION MODEL A NO UPPER SURFACE PERTURBATION 0 RETURN TO W ARRAY DATA SET 500 2. MUARDC VISC/COND MODEL CHECK NUMBER, changed 17 Dec 2002 500 -2. NO VISC/COND MODEL CHECK NUMBER, changed 17 Dec 2002 502 1. VISC/COND MODEL DATA SET ID 503 1.458E-06 VISCOSITY COEFFICIENT BETA 504 110.4 SUTHERLAND'S CONSTANT, KELVINS 505 0.733 PRANDTL NUMBER -17 DATA SUBSET FOR VISC/COND MODEL A ARDC VISCOSITY AND THERMAL CONDUCTIVITY MODEL 0 RETURN TO W ARRAY DATA SET -17 DATA SUBSET FOR VISC/COND MODEL A NO VISCOSITY AND THERMAL CONDUCTIVITY MODEL 0 RETURN TO W ARRAY DATA SET 525 0. NPABSR NO PERTURBATION LOSS MODEL -18 DATA SUBSET FOR VISC/COND PERTURBATION MODEL A NO VISCOSITY/CONDUCTIVITY PERTURBATION 0 RETURN TO W ARRAY DATA SET 550 2. PSCALEH PRESSURE MODEL CHECK NUMBER 552 1. BACKGROUND PRESSURE MODEL DATA SET ID 553 27079. PRESSURE AT 10 km, N/M^2 553 400177.7659 PRESSURE AT 5 km, N/M^2 553 .10991 PRESSURE AT 100 km, N/M^2 553 27079. PRESSURE AT 10 km, N/M^2 553 101328. PRESSURE AT SEA LEVEL, N/M^2 553 400177.7659 PRESSURE AT z0 = 5 km, N/M^2 553 101328. PRESSURE AT Z0 = 0 km, N/M^2 554 6.0 PRESSURE SCALE HEIGHT 554 12.0 PRESSURE SCALE HEIGHT 554 1.0e06 PRESSURE SCALE HEIGHT 554 5.0 PRESSURE SCALE HEIGHT 555 10.0 Z0, HEIGHT OF GIVEN PRESSURE 555 5.0 Z0, HEIGHT OF GIVEN PRESSURE 555 0.0 Z0, HEIGHT OF GIVEN PRESSURE -19 DATA SUBSET FOR BACKGROUND PRESSURE MODEL A TEMPERATURE-BASED PRESSURE 0 RETURN TO W ARRAY DATA SET 575 0. NPPRES PRESSURE PERTURBATION MODEL CHECK NUMBER -20 DATA SUBSET FOR PRESSURE PERTURBATION MODEL A NO PRESSURE PERTURBATION 0 RETURN TO W ARRAY DATA SET 600 1. GCONST MODEL CHECK NUMBER 602 1. BACKGROUND GRAVITY MODEL DATA SET ID 603 9.81 LN M CONSTANT VALUE FOR GRAVITY (IN M/S^2) -13 DATA SUBSET FOR BACKGROUND GRAVITY MODEL A CONSTANT GRAVITY 0 RETURN TO W ARRAY DATA SET 625 0. NPGRAV GRAVITY PERTURBATION MODEL CHECK NUMBER -14 DATA SUBSET FOR PRESSURE PERTURBATION MODEL A NO GRAVITY PERTURBATION 0 RETURN TO W ARRAY DATA SET 650 1. RHOSMP MODEL CHECK NUMBER -15 DATA SUBSET FOR BACKGROUND DENSITY MODEL A DENSITY SATISFIES HYDROSTATIC EQUILIBRIUM 0 RETURN TO W ARRAY DATA SET 652 1. DENSITY MODEL DATA SET ID 675 0. NPRHO DENSITY PERTURBATION MODEL CHECK NUMBER -16 DATA SUBSET FOR PRESSURE PERTURBATION MODEL A NO DENSITY PERTURBATION 0 RETURN TO W ARRAY DATA SET 0 *** G04-A grav17 Gravity waves without wind 6 .00125 FQ HZ FREQUENCY, HZ 7 .00125 FQ HZ INITIAL FREQUENCY, HZ 14 1. AN DG ELEVATION ANGLE, DEG 15 1. AN DG INITIAL ELEVATION ANGLE, DEG 15 10. AN DG INITIAL ELEVATION ANGLE, DEG 16 90. AN DG FINAL ELEVATION ANGLE, DEG 17 1. AN DG STEP IN ELEVATION ANGLE, DEG 17 2. AN DG STEP IN ELEVATION ANGLE, DEG 17 0. AN DG DO NOT STEP ELEVATION ANGLE 17 5. AN DG STEP IN ELEVATION ANGLE, DEG 29 0000100. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 29 0001000. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 81 -3. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 81 -4. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 0 *** G04-A grav17 Gravity waves without wind 15 181. AN DG INITIAL ELEVATION ANGLE, DEG 16 270. AN DG FINAL ELEVATION ANGLE, DEG 29 0000100. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 29 0001000. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 81 -3. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 81 -4. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 0 *** G04-A grav17 Gravity waves without wind 15 0. AN DG INITIAL ELEVATION ANGLE, DEG 15 -1. AN DG INITIAL ELEVATION ANGLE, DEG 16 -90. AN DG FINAL ELEVATION ANGLE, DEG 17 -1. AN DG STEP IN ELEVATION ANGLE, DEG 17 -2. AN DG STEP IN ELEVATION ANGLE, DEG 17 0. AN DG DO NOT STEP ELEVATION ANGLE 17 5. AN DG STEP IN ELEVATION ANGLE, DEG 29 0000100. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 29 0001000. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 81 -3. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 81 -4. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 0 *** G04-A grav17 Gravity waves without wind 15 180. AN DG INITIAL ELEVATION ANGLE, DEG 15 179. AN DG INITIAL ELEVATION ANGLE, DEG 15 50. AN DG INITIAL ELEVATION ANGLE, DEG 15 10. AN DG INITIAL ELEVATION ANGLE, DEG 16 90. AN DG FINAL ELEVATION ANGLE, DEG 29 0000100. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 29 0001000. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 81 3. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 81 4. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 0 *** G04-F grav17 Gravity waves without wind 15 0. AN DG INITIAL ELEVATION ANGLE, DEG 16 180. AN DG FINAL ELEVATION ANGLE, DEG 17 5. AN DG STEP IN ELEVATION ANGLE, DEG 20 0. RECEIVER HEIGHT, KM 29 0000011. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 81 3. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 83 0. AN KM N. LATITUDE OF LEFT PLOT EDGE, KM 84 -200. AN KM E. LONGITUDE OF LEFT PLOT EDGE, KM 85 0. AN KM N. LATITUDE OF RIGHT PLOT EDGE, KM 86 200. AN KM E. LONGITUDE OF RIGHT PLOT EDGE, KM 87 50. AN KM DISTANCE BETWEEN TIC MARKS, KM 88 0. HEIGHT ABOVE SEA LEVEL OF BOTTOM OF GRAPH, KM 89 200. HEIGHT ABOVE SEA LEVEL OF TOP OF GRAPH, KM 89 500. HEIGHT ABOVE SEA LEVEL OF TOP OF GRAPH, KM 93 2000.00 maximum value 94 200.000 step in value 96 50. DISTANCE BETWEEN VERTICAL TIC MARKS, KM 0 *** G04-1 grav17 Calculating gravity waves without wind 29 0000011. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 81 3. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 90 14. phase speed PROFILE 90 13. wavelength PROFILE 90 10. Brunt-Vaisala frequency PROFILE 90 9. Acoustic cutoff frequency PROFILE 92 -10.00 minimum value 92 -100.00 minimum value 92 -200.00 minimum value 92 0.001 minimum value 93 10.00 maximum value 93 100.00 maximum value 93 200.00 maximum value 93 0.005 maximum value 94 1.000 step in value 94 10.000 step in value 94 20.000 step in value 94 50.000 step in value 94 0.0005 step in value 0 *** G04-2 grav17 Calculating gravity waves without wind 29 0000011. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 81 3. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 90 13. wavelength PROFILE 90 14. phase speed PROFILE 90 12. Vertical wavenumber PROFILE 90 9. Acoustic cutoff frequency PROFILE 90 10. Brunt-Vaisala frequency PROFILE 92 .001 minimum value 92 -10.00 minimum value 92 -1.00 minimum value 92 -.100 minimum value 92 -.050 minimum value 92 0.001 minimum value 93 .005 maximum value 93 10.00 maximum value 93 1.00 maximum value 93 10.00 maximum value 93 0.02 maximum value 93 2.00 maximum value 93 0.20 maximum value 93 0.005 maximum value 94 .0005 step in value 94 1.000 step in value 94 0.100 step in value 94 0.002 step in value 94 0.200 step in value 94 0.020 step in value 94 0.0005 step in value 0 *** G04-3 grav17 Calculating gravity waves without wind 29 0000011. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 29 0000010. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 81 3. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 90 10. Brunt-Vaisala frequency PROFILE 90 12. Vertical wavenumber PROFILE 90 13. wavelength PROFILE 90 14. phase speed PROFILE 90 11. Square of Brunt-Vaisala frequency PROFILE 92 .001 minimum value 92 -10.00 minimum value 92 -1.00 minimum value 92 -.100 minimum value 92 -.050 minimum value 92 0. minimum value 93 .005 maximum value 93 10.00 maximum value 93 1.00 maximum value 93 10.00 maximum value 93 0.02 maximum value 93 2.00 maximum value 93 0.20 maximum value 93 0.10 maximum value 93 0.000025 maximum value 94 .0005 step in value 94 1.000 step in value 94 0.100 step in value 94 0.002 step in value 94 0.200 step in value 94 0.020 step in value 94 0.000005 step in value 0 *** G04-4 grav17 Calculating gravity waves without wind 29 0000011. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 81 3. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 90 12. Vertical wavenumber PROFILE 92 0. minimum value 93 0.02 maximum value 93 0.05 maximum value 93 0.50 maximum value 93 0.10 maximum value 94 0.002 step in value 94 0.005 step in value 94 0.050 step in value 94 0.010 step in value 0 *** G04-5 grav17 Calculating gravity waves without wind 29 0000011. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 81 3. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 90 13. wavelength PROFILE 92 0. minimum value 93 200. maximum value 93 50. maximum value 93 2000. maximum value 93 500. maximum value 93 250. maximum value 94 10. step in value 94 500. step in value 94 50. step in value 0 *** G04-6 grav17 Calculating gravity waves without wind 29 0000011. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 81 3. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 90 14. phase speed PROFILE 92 0. minimum value 93 6.0 maximum value 93 0.6 maximum value 93 0.05 maximum value 93 0.1 maximum value 93 0.2 maximum value 94 1.0 step in value 94 0.1 step in value 94 0.01 step in value 94 0.02 step in value 0 *** G04-7 grav17 Calculating gravity waves without wind 29 0000011. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 81 3. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 90 15. phase integral PROFILE 92 -100. minimum value 92 -2. minimum value 92 -1. minimum value 92 0.0 minimum value 92 -10. minimum value 93 2. maximum value 93 1. maximum value 93 100. maximum value 93 200. maximum value 93 10. maximum value 94 0.2 step in value 94 10.0 step in value 94 1.0 step in value 94 20.0 step in value 94 2.0 step in value 95 400.3 CONSTANT PHASE INTEGRAL ADDITION VALUE 95 15.0 CONSTANT PHASE INTEGRAL ADDITION VALUE 95 5.0 CONSTANT PHASE INTEGRAL ADDITION VALUE 95 5.0 CONSTANT PHASE INTEGRAL ADDITION VALUE 95 15.0 CONSTANT PHASE INTEGRAL ADDITION VALUE 95 14.0 CONSTANT PHASE INTEGRAL ADDITION VALUE 95 13.0 CONSTANT PHASE INTEGRAL ADDITION VALUE 95 12.6 CONSTANT PHASE INTEGRAL ADDITION VALUE 95 12.37 CONSTANT PHASE INTEGRAL ADDITION VALUE 95 -0.23 CONSTANT PHASE INTEGRAL ADDITION VALUE 95 -64.50 CONSTANT PHASE INTEGRAL ADDITION VALUE 95 0.0 CONSTANT PHASE INTEGRAL ADDITION VALUE 95 -68.30 CONSTANT PHASE INTEGRAL ADDITION VALUE 0 *** G04-8 grav17 Calculating gravity waves without wind 29 0000011. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 81 3. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 90 15. phase integral PROFILE 92 -1. minimum value 93 1. maximum value 94 0.2 step in value 95 -1.07 CONSTANT PHASE INTEGRAL ADDITION VALUE 95 -0.07 CONSTANT PHASE INTEGRAL ADDITION VALUE 95 0.0 CONSTANT PHASE INTEGRAL ADDITION VALUE 0 *** G04-9 grav17 Calculating gravity waves without wind 20 200. RECEIVER HEIGHT, KM 29 0000010. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 29 0000011. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 81 3. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 90 15. phase integral PROFILE 92 -1. minimum value 93 1. maximum value 94 0.2 step in value 95 0.0 CONSTANT PHASE INTEGRAL ADDITION VALUE 95 4.5 CONSTANT PHASE INTEGRAL ADDITION VALUE 95 -64.50 CONSTANT PHASE INTEGRAL ADDITION VALUE 95 -68.30 CONSTANT PHASE INTEGRAL ADDITION VALUE 0 *** G05-10 grav17 gravity waves with wind - ordinary ray 2 3. big ray 2 2. small ray 2 1. Ordinary ray 11 91. AN DG INITIAL AZIMUTH ANGLE, DEG 11 98. AN DG INITIAL AZIMUTH ANGLE, DEG 11 120. AN DG INITIAL AZIMUTH ANGLE, DEG 11 135. AN DG INITIAL AZIMUTH ANGLE, DEG 11 90. AN DG INITIAL AZIMUTH ANGLE, DEG 11 45. AN DG INITIAL AZIMUTH ANGLE, DEG 12 360. AN DG FINAL AZIMUTH ANGLE, DEG 13 45. AN DG STEP IN AZIMUTH ANGLE, DEG 13 0. AN DG DO NOT STEP AZIMUTH ANGLE 15 180. AN DG INITIAL ELEVATION ANGLE, DEG 15 179. AN DG INITIAL ELEVATION ANGLE, DEG 15 30. AN DG INITIAL ELEVATION ANGLE, DEG 15 65. AN DG INITIAL ELEVATION ANGLE, DEG 15 60. AN DG INITIAL ELEVATION ANGLE, DEG 15 50. AN DG INITIAL ELEVATION ANGLE, DEG 15 10. AN DG INITIAL ELEVATION ANGLE, DEG 16 90. AN DG FINAL ELEVATION ANGLE, DEG 16 20. AN DG FINAL ELEVATION ANGLE, DEG 16 70. AN DG FINAL ELEVATION ANGLE, DEG 16 10. AN DG FINAL ELEVATION ANGLE, DEG 16 50. AN DG FINAL ELEVATION ANGLE, DEG 17 5. AN DG STEP IN ELEVATION ANGLE, DEG 17 0. AN DG DO NOT STEP ELEVATION ANGLE 17 10. AN DG DO NOT STEP ELEVATION ANGLE 20 1. RECEIVER HEIGHT, KM 20 10. RECEIVER HEIGHT, KM 20 200. RECEIVER HEIGHT, KM 29 0000100. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 81 3. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 81 4. RAYPLOT PROJECTION (2=HORIZ; 3=VERT) PLANE 84 -2000. AN KM E. LONGITUDE OF LEFT PLOT EDGE, KM 86 2000. AN KM E. LONGITUDE OF RIGHT PLOT EDGE, KM 87 500. AN KM DISTANCE BETWEEN TIC MARKS, KM 100 1. WLINEAR WIND MODEL CHECK NUMBER 102 0.0 BACKGROUND WIND DATA SET ID 102 10.0 BACKGROUND WIND DATA SET ID 103 0. LN M UPWARD CONSTANT WIND 104 0. LN M SOUTHWARD CONSTANT WIND 105 0. LN M EASTWARD WIND AT SEA LEVEL 106 0.0 LN M HEIGHT GRADIENT OF EASTWARD WIND, M/S/KM 106 0.01 LN M HEIGHT GRADIENT OF EASTWARD WIND, M/S/KM -1 DATA SUBSET FOR BACKGROUND WIND MODEL A ZERO WIND 0 RETURN TO W ARRAY DATA SET -1 DATA SUBSET FOR BACKGROUND WIND MODEL A LINEAR EASTWARD WIND PROFILE, ZERO AT SEA LEVEL, 1.0 M/S AT 100 KM 0 RETURN TO W ARRAY DATA SET 0 *** G05-11 grav17 gravity waves with wind - smaller wavenumber ray 2 3. big ray 2 1. Ordinary ray 2 2. small ray 0 *** G05-12 grav17 gravity waves with wind - large wavenumber ray 2 1. Ordinary ray 2 2. small ray 2 3. big ray 29 0001000. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 0 *** G05-13 grav17 Calculating gravity waves with wind (upwind at 45 degrees) 11 45. AN DG INITIAL AZIMUTH ANGLE, DEG 11 225. AN DG INITIAL AZIMUTH ANGLE, DEG 29 0001000. DO: EIGRAY/RNG-TIM/RNG-ELV/NEW-PROJ/RAYTRC/CONT/PROF 0 ***