Land Magnetometer Training Course Magnetic Theory ½ day Hardware (G858/AP) ¼ day Software (MagMap...
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Land Magnetometer Training Course • Magnetic Theory ½ day • Hardware (G858/AP) ¼ day • Software (MagMap / MagPick) ¼ day • Hardware setup (858 and GPS) ½ day • Survey ½ day • Processing ½ day • Review ½ day
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Transcript of Land Magnetometer Training Course Magnetic Theory ½ day Hardware (G858/AP) ¼ day Software (MagMap...
Land Magnetometer Training Course
• Magnetic Theory ½ day• Hardware (G858/AP) ¼ day• Software (MagMap / MagPick) ¼ day• Hardware setup (858 and GPS) ½ day• Survey ½ day• Processing ½ day• Review ½ day
Slide 2
Geometrics, Inc.Premier Manufacturer of Land Magnetometers
GEOMETRICS MAGNETOMETERS-tools for exploration
Applications:• Map Geology for Mining, Oil/Gas Exploration
• Environmental Survey for Tanks, Barrels
• Locate Utilities, Pipelines
• Military Uses, UXO-EOD, De-mining
• Archaeology
• Used in Land-Marine-Airborne Surveys
Slide 3
GEOMETRICS: a 30-year history of building magnetometers
• 1969: G-801 & G-803 marine and airborne proton magnetometers• 1971: G-806 land and marine proton magnetometer• 1973: G-816 portable proton magnetometer• 1977: G-826 portable digital magnetometer• 1981: G-856 portable memory magnetometer• 1983: G-811 marine magnetometer• 1991: G-822L military magnetometer• 1992: G-825 military diver-held magnetometer• 1992: G-822A airborne cesium magnetometer• 1995: G-858 portable cesium magnetometer• 1996: G-880 marine cesium magnetometer• 1997: G-823A airborne cesium magnetometer with counter• 1998: G-881 marine light-weight cesium magnetometer• 2003: G-882 marine cesium magnetometer • 2005: G-859 cesium mining magnetometer• 2009: UAV, AUV testing• 2013: G-860 land cesium magnetometer• 2014: G-862RBS cesium base station
Slide 4
Magnetometer Configurations
Slide 5
Slide 6
UXO Magnetometer Configurations
Slide 7
Sensor Noise – Spin analysis
Slide 8
Sensor Noise – Tumble Analysis
Slide 9
Sensor Noise – Various Motions
Slide 10
Earth’s Magnetic Field Diagram
Slide 11
Earth’s Magnetic Field – Solar effectsEarth’s Magnetic Field: detection of magnetic anomalies
• Earth’s dipole magnetic field is perturbed by relatively localized contrasts in magnetization.
• Magnetization contrasts are caused by ferrous debris, vessels, pipelines, communication cables, magnetic minerals (predominantly magnetite).
• With magnetometers, one can measure the total field to detect the magnetic anomalies associated with contrasts.
• Earth’s dipole (N-S) magnetic field is produced by internal iron core dynamo effect. Charged particles from the sun cause a bow shock wave in the magnetosphere which leads to Diurnal Variations
Slide 12
Earth’s Total Magnetic Field
Slide 13
Earth’s Magnetic Inclination
Diurnal Variations
Slide 14
Slide 15
Optional Diurnal / Base Station Monitor
• Use either G-858 or G-856 Magnetometers
• Monitor Magnetic Diurnal Variations
• Magnetometer in fixed location
• Synchronized clocks
• 1-30 second sample rate
• Use for correction of survey data
• Produce more accurate magnetic maps
Slide 16
Slide 17
Slide 18
Sensor Dead Zone Diagram
Sensor Diagrams - CSAZ
Slide 19
Sensor Dead Zone – 0 Degree Tilt
Slide 20
Sensor Dead Zone – 45 Degree Tilt
Slide 21
Results of Survey profile width
Slide 22
Slide 23
Anomaly patterns as a result of Inclination
Anomaly width versus depth
Slide 24
Slide 25
Depth estimate
Slide 26
Nomogram
Anomalies of common objects
Slide 27
Vertical Gradient Applications
Slide 28
Slide 29
Wearing the G-858
Gradiometer Transverse Layout
Slide 30
WITH agGPS-114/132 STEERINGG-858 CESIUM GRADIOMETER
Slide 31
Standard Survey Acquisition
Swath Spacing
Slide 32
GPS Differential Corrections
• Coast Guard Beacon
• OmniStar (On shore only without special license)
• Racal (On shore only without special license)
• RTCM
• RTK
• Known Antenna and Satellite positions and frequencies
Slide 33
Data Processing Software – Magmap 2000
Software capabilities
• Import G-858 magnetometer (1 or 2 sensors)
• Convert GPS Lat / Long to UTM XY coordinates
• Correct for GPS offset from Magnetometer sensor
• Perform Spike filtering
• Import G-858 or G-856 base station data
• Merge Base Station data with survey Data
• Export in Surfer or Geosoft format
Slide 34
Slide 35
MagMap 2000 Destripping tool
Surfer Software Capabilities
• Windows based program for professional displays
• Grid and contour G-858 data
• Display sample locations on contour map
• Various types of displays for interpretation
• Export Windows Metafile and ASCII grid files for MagAID
Slide 36
Slide 37
Surfer Displays – Ft. Ross
Slide 38
Stanford Base Map
Slide 39
Surfer 3 dimensional display
Stanford shaded relief
Slide 40
Slide 41
Stanford Magnetic Contour Map
MagPick – Filtering theory
Slide 42
RAW DATA
MANUAL SMOOTHING
3 POINT RUNNING AVERAGE
