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9 magnetic - introduction

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Emre Demirhan
Emre Demirhan
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Geophysical Surveying Using Magnetic Methods Introduction Historical Overview Unlike the gravitational observations described in the previous section, man has been systematically observing the earth's magnetic field for almost 500 years. Sir William Gilbert published the first scientific treatise on the earth's magnetic field entitled De magnate. In this work, Gilbert showed that the reason compass needles point toward the earth's north pole is because the earth itself appears to behave as a large magnet. Gilbert also showed that the earth's magnetic field is roughly equivalent to that which would be generated by a bar magnet located at the center of the earth and oriented along the earth's rotational axis. During the mid-nineteenth century, Karl Frederick Gauss confirmed Gilbert's observations and also showed that the magnetic field observed on the surface of the earth could not be caused by magnetic sources external to the earth, but rather had to be caused by sources within the earth. 1
Similarities Between Gravity and Magnetic Geophysical investigations employing observations of the earth's magnetic field have much in common with those employing observations of the earth's gravitational field. Thus, you will find that your previous exposure to, and the intuitive understanding you developed from using, gravity will greatly assist you in understanding the use of magnetic. In particular, some of the most striking similarities between the two methods include: 1- Geophysical exploration techniques that employ both gravity and magnetic are passive. By this, we simply mean that when using these two methods we measure a naturally occurring field of the earth: either the earth's gravitational or magnetic fields. Collectively, the gravity and magnetic methods are often referred to as potential methods and the gravitational and magnetic fields that we measure are referred to as potential fields. 2- Identical physical and mathematical representations can be used to understand magnetic and gravitational forces. For example, the fundamental element used to define the gravitational force is the point mass. An equivalent representation is used to define the force derived from the fundamental magnetic element. Instead of being called a point mass, however, the fundamental magnetic element is called a magnetic monopole. Mathematical representations for the point mass and the magnetic monopole are identical. 3- The acquisition, reduction, and interpretation of gravity and magnetic observations are very similar. 2
Differences Between Gravity and Magnetics Unfortunately, despite these similarities, there are several significant differences between gravity and magnetic exploration. By-in-large, these differences make the qualitative and quantitative assessment of magnetic anomalies more difficult and less intuitive than gravity anomalies. 1- The fundamental parameter that controls gravity variations of interest to us as exploration geophysicists is rock density. The densities of rocks and soils vary little from place to place near the surface of the earth. The highest densities we typically observe are about 3.0 gm/cm3 , and the lowest densities are about 1.0 gm/cm3. The fundamental parameter controlling the magnetic field variations of interest to us, magnetic susceptibility, on the other hand, can vary as much as four to five orders of magnitude. This variation is not only present amongst different rock types, but wide variations in susceptibility also occur within a given rock type. Thus, it will be extremely difficult with magnetic prospecting to determine rock types on the basis of estimated susceptibilities. 2- Unlike the gravitational force, which is always attractive, the magnetic force can be either attractive or repulsive. Thus, mathematically, monopoles can assume either positive or negative values. 3- Unlike the gravitational case, single magnetic point sources (monopoles) can never be found alone in the magnetic case. Rather, monopoles always occur in pairs. A pair of magnetic monopoles, referred to as a dipole, always consists of one positive monopole and one negative monopole. 3
4- A properly reduced gravitational field is always generated by subsurface variations in rock density. A properly reduced magnetic field, however, can have as its origin at least two possible sources. It can be produced via an induced magnetization, or it can be produced via a remanent magnetization. For any given set of field observations, both mechanisms probably contribute to the observed field. It is difficult, however, to distinguish between these possible production mechanisms from the field observations alone. 5- Unlike the gravitational field, which does not change significantly with time, the magnetic field is highly time dependent. 4
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Earth’ s magnetic field surrounds the Earth • has north and south magnetic poles • is detected by compasses • is recorded in rocks and minerals as they cool • is generated in the Earth’ s liquid outer core as it spins and produces electrical currents Earth’ s field similar to that for bar magnet (left) magnetic N and S is not the same as geographic N and S poles (bar magnet “ tilted” ) 9
Earth’ s magnetic field changes through time change in magnetic north relative to true north 1580-1970 1831-2001 consequence of rotation of outer core migration of magnetic north 10
Earth’ s magnetic field reverses over time (north and south poles flip) --magnetic field lines reverse-- “ normal” polarity: north is north and south is south S N “ reversed” polarity: north is south and south is north after next reversal, compass needle will point south 11
Earth’ s magnetic field how do rocks and minerals acquire magnetism? rocks and minerals at high temperatures (e.g. molten) must cool through their Curie temperatures • above Curie temperature, atoms are random • below Curie temperature, atoms align in domains that are independent of each other • below Curie temperature, atoms align with magnetic field if one is present (e.g. Earth) 12
Earth’ s magnetic field how do rocks and minerals acquire magnetism? rocks and minerals that cool through Curie temperature and stay below that temperature through time record magnetic field AT THE TIME OF THEIR COOLING paleomagnetism: study of ancient magnetic fields in rocks --reconstruction of past fields-- magnetite common mineral in basalt 13
Earth’ s magnetic field re-construct “ normal” and “ reversed” for lava sequence 14
15
Earth’ s magnetic field magnetic anomalies occur in local field from magnetic rock below surface (similar to gravity anomalies) magnetic material below “ adds” magnetism and creates positive anomaly magnetic rocks include iron ore, gabbro, granite 16
Earth’ s magnetic field removal of magnetic material from near surface causes negative anomaly (example is normal faulting) 17
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9 magnetic - introduction

  • 1. Geophysical Surveying Using Magnetic Methods Introduction Historical Overview Unlike the gravitational observations described in the previous section, man has been systematically observing the earth's magnetic field for almost 500 years. Sir William Gilbert published the first scientific treatise on the earth's magnetic field entitled De magnate. In this work, Gilbert showed that the reason compass needles point toward the earth's north pole is because the earth itself appears to behave as a large magnet. Gilbert also showed that the earth's magnetic field is roughly equivalent to that which would be generated by a bar magnet located at the center of the earth and oriented along the earth's rotational axis. During the mid-nineteenth century, Karl Frederick Gauss confirmed Gilbert's observations and also showed that the magnetic field observed on the surface of the earth could not be caused by magnetic sources external to the earth, but rather had to be caused by sources within the earth. 1
  • 2. Similarities Between Gravity and Magnetic Geophysical investigations employing observations of the earth's magnetic field have much in common with those employing observations of the earth's gravitational field. Thus, you will find that your previous exposure to, and the intuitive understanding you developed from using, gravity will greatly assist you in understanding the use of magnetic. In particular, some of the most striking similarities between the two methods include: 1- Geophysical exploration techniques that employ both gravity and magnetic are passive. By this, we simply mean that when using these two methods we measure a naturally occurring field of the earth: either the earth's gravitational or magnetic fields. Collectively, the gravity and magnetic methods are often referred to as potential methods and the gravitational and magnetic fields that we measure are referred to as potential fields. 2- Identical physical and mathematical representations can be used to understand magnetic and gravitational forces. For example, the fundamental element used to define the gravitational force is the point mass. An equivalent representation is used to define the force derived from the fundamental magnetic element. Instead of being called a point mass, however, the fundamental magnetic element is called a magnetic monopole. Mathematical representations for the point mass and the magnetic monopole are identical. 3- The acquisition, reduction, and interpretation of gravity and magnetic observations are very similar. 2
  • 3. Differences Between Gravity and Magnetics Unfortunately, despite these similarities, there are several significant differences between gravity and magnetic exploration. By-in-large, these differences make the qualitative and quantitative assessment of magnetic anomalies more difficult and less intuitive than gravity anomalies. 1- The fundamental parameter that controls gravity variations of interest to us as exploration geophysicists is rock density. The densities of rocks and soils vary little from place to place near the surface of the earth. The highest densities we typically observe are about 3.0 gm/cm3 , and the lowest densities are about 1.0 gm/cm3. The fundamental parameter controlling the magnetic field variations of interest to us, magnetic susceptibility, on the other hand, can vary as much as four to five orders of magnitude. This variation is not only present amongst different rock types, but wide variations in susceptibility also occur within a given rock type. Thus, it will be extremely difficult with magnetic prospecting to determine rock types on the basis of estimated susceptibilities. 2- Unlike the gravitational force, which is always attractive, the magnetic force can be either attractive or repulsive. Thus, mathematically, monopoles can assume either positive or negative values. 3- Unlike the gravitational case, single magnetic point sources (monopoles) can never be found alone in the magnetic case. Rather, monopoles always occur in pairs. A pair of magnetic monopoles, referred to as a dipole, always consists of one positive monopole and one negative monopole. 3
  • 4. 4- A properly reduced gravitational field is always generated by subsurface variations in rock density. A properly reduced magnetic field, however, can have as its origin at least two possible sources. It can be produced via an induced magnetization, or it can be produced via a remanent magnetization. For any given set of field observations, both mechanisms probably contribute to the observed field. It is difficult, however, to distinguish between these possible production mechanisms from the field observations alone. 5- Unlike the gravitational field, which does not change significantly with time, the magnetic field is highly time dependent. 4
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  • 9. Earth’ s magnetic field surrounds the Earth • has north and south magnetic poles • is detected by compasses • is recorded in rocks and minerals as they cool • is generated in the Earth’ s liquid outer core as it spins and produces electrical currents Earth’ s field similar to that for bar magnet (left) magnetic N and S is not the same as geographic N and S poles (bar magnet “ tilted” ) 9
  • 10. Earth’ s magnetic field changes through time change in magnetic north relative to true north 1580-1970 1831-2001 consequence of rotation of outer core migration of magnetic north 10
  • 11. Earth’ s magnetic field reverses over time (north and south poles flip) --magnetic field lines reverse-- “ normal” polarity: north is north and south is south S N “ reversed” polarity: north is south and south is north after next reversal, compass needle will point south 11
  • 12. Earth’ s magnetic field how do rocks and minerals acquire magnetism? rocks and minerals at high temperatures (e.g. molten) must cool through their Curie temperatures • above Curie temperature, atoms are random • below Curie temperature, atoms align in domains that are independent of each other • below Curie temperature, atoms align with magnetic field if one is present (e.g. Earth) 12
  • 13. Earth’ s magnetic field how do rocks and minerals acquire magnetism? rocks and minerals that cool through Curie temperature and stay below that temperature through time record magnetic field AT THE TIME OF THEIR COOLING paleomagnetism: study of ancient magnetic fields in rocks --reconstruction of past fields-- magnetite common mineral in basalt 13
  • 14. Earth’ s magnetic field re-construct “ normal” and “ reversed” for lava sequence 14
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  • 16. Earth’ s magnetic field magnetic anomalies occur in local field from magnetic rock below surface (similar to gravity anomalies) magnetic material below “ adds” magnetism and creates positive anomaly magnetic rocks include iron ore, gabbro, granite 16
  • 17. Earth’ s magnetic field removal of magnetic material from near surface causes negative anomaly (example is normal faulting) 17
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