A seismometer is an instrument that responds to ground noises and shaking such as caused by
earthquakes,
volcanic eruptions, and
explosion
An explosion is a rapid expansion in volume associated with an extreme outward release of energy, usually with the generation of high temperatures and release of high-pressure gases. Supersonic explosions created by high explosives are known ...
s. They are usually combined with a timing device and a recording device to form a seismograph. The output of such a device—formerly recorded on paper (see picture) or film, now recorded and processed digitally—is a
seismogram. Such data is used to locate and characterize earthquakes, and to study the Earth's internal structure.
Basic principles
A simple seismometer, sensitive to up-down motions of the Earth, is like a weight hanging from a spring, both suspended from a frame that moves along with any motion detected. The relative motion between the weight (called the mass) and the frame provides a measurement of the vertical
ground motion. A rotating drum is attached to the frame and a pen is attached to the weight, thus recording any ground motion in a
seismogram.
Any movement from the ground moves the frame. The mass tends not to move because of its
inertia, and by measuring the movement between the frame and the mass, the motion of the ground can be determined.
Early seismometers used optical levers or mechanical linkages to amplify the small motions involved, recording on soot-covered paper or photographic paper. Modern instruments use electronics. In some systems, the mass is held nearly motionless relative to the frame by an electronic
negative feedback loop
Negative feedback (or balancing feedback) occurs when some function of the output of a system, process, or mechanism is fed back in a manner that tends to reduce the fluctuations in the output, whether caused by changes in the input or by other ...
. The motion of the mass relative to the frame is measured, and the
feedback loop applies a magnetic or electrostatic force to keep the mass nearly motionless. The voltage needed to produce this force is the output of the seismometer, which is recorded digitally.
In other systems the weight is allowed to move, and its motion produces an electrical charge in a coil attached to the mass which voltage moves through the magnetic field of a magnet attached to the frame. This design is often used in a
geophone, which is used in exploration for oil and gas.
Seismic observatories usually have instruments measuring three axes: north-south (y-axis), east-west (x-axis), and vertical (z-axis). If only one axis is measured, it is usually the vertical because it is less noisy and gives better records of some seismic waves.
The foundation of a seismic station is critical. A professional station is sometimes mounted on
bedrock
In geology, bedrock is solid Rock (geology), rock that lies under loose material (regolith) within the crust (geology), crust of Earth or another terrestrial planet.
Definition
Bedrock is the solid rock that underlies looser surface mater ...
. The best mountings may be in deep boreholes, which avoid thermal effects, ground noise and tilting from weather and tides. Other instruments are often mounted in insulated enclosures on small buried piers of unreinforced concrete. Reinforcing rods and aggregates would distort the pier as the temperature changes. A site is always surveyed for ground noise with a temporary installation before pouring the pier and laying conduit. Originally, European seismographs were placed in a particular area after a destructive earthquake. Today, they are spread to provide appropriate coverage (in the case of
weak-motion seismology) or concentrated in high-risk regions (
strong-motion seismology).
Nomenclature
The word derives from the
Greek σεισμός, ''seismós'', a shaking or quake, from the verb σείω, ''seíō'', to shake; and μέτρον, ''métron'', to measure, and was coined by
David Milne-Home in 1841, to describe an instrument designed by Scottish physicist
James David Forbes
James David Forbes (1809–1868) was a Scottish physicist and glaciologist who worked extensively on the conduction of heat and seismology. Forbes was a resident of Edinburgh for most of his life, educated at its University and a professor ...
.
''Seismograph'' is another Greek term from ''seismós'' and γράφω, ''gráphō'', to draw. It is often used to mean ''seismometer'', though it is more applicable to the older instruments in which the measuring and recording of ground motion were combined, than to modern systems, in which these functions are separated. Both types provide a continuous record of ground motion; this record distinguishes them from seismoscopes, which merely indicate that motion has occurred, perhaps with some simple measure of how large it was.
The technical discipline concerning such devices is called seismometry,
a branch of
seismology.
The concept of measuring the "shaking" of something means that the word "seismograph" might be used in a more general sense. For example, a monitoring station that tracks changes in
electromagnetic noise affecting
amateur radio
Amateur radio, also known as ham radio, is the use of the radio frequency spectrum for purposes of non-commercial exchange of messages, wireless experimentation, self-training, private recreation, radiosport, contesting, and emergency communic ...
waves presents an ''rf seismograph''. And
helioseismology studies the "quakes" on the
Sun.
History
The first seismometer was made in China during the 2nd century.
It was invented by
Zhang Heng
Zhang Heng (; AD 78–139), formerly romanized as Chang Heng, was a Chinese polymathic scientist and statesman who lived during the Han dynasty. Educated in the capital cities of Luoyang and Chang'an, he achieved success as an astronomer, ma ...
, a Chinese mathematician and astronomer. The first Western description of the device comes from the French physicist and priest
Jean de Hautefeuille
Jean de Hautefeuille (, 20 March 1647 – 18 October 1724) was a French abbé, physicist and inventor.
Biography
Hautefeuille was born in Orléans, France. While still young, his experimental activities came to the attention of Marie Anne Man ...
in 1703.
The modern seismometer was developed in the 19th century.
In December 2018, a seismometer was deployed on the
planet Mars
Mars is the fourth planet from the Sun and the second-smallest planet in the Solar System, only being larger than Mercury (planet), Mercury. In the English language, Mars is named for the Mars (mythology), Roman god of war. Mars is a terr ...
by the ''
InSight'' lander, the first time a seismometer was placed onto the surface of another planet.
Ancient era
In
AD 132,
Zhang Heng
Zhang Heng (; AD 78–139), formerly romanized as Chang Heng, was a Chinese polymathic scientist and statesman who lived during the Han dynasty. Educated in the capital cities of Luoyang and Chang'an, he achieved success as an astronomer, ma ...
of China's
Han dynasty invented the first seismoscope (by the definition above), which was called ''Houfeng Didong Yi'' (translated as, "instrument for measuring the seasonal winds and the movements of the Earth"). The description we have, from the
History of the Later Han Dynasty, says that it was a large bronze vessel, about 2 meters in diameter; at eight points around the top were dragon's heads holding bronze balls. When there was an earthquake, one of the dragons' mouths would open and drop its ball into a bronze toad at the base, making a sound and supposedly showing the direction of the earthquake. On at least one occasion, probably at the time of a large earthquake in
Gansu
Gansu (, ; alternately romanized as Kansu) is a province in Northwest China. Its capital and largest city is Lanzhou, in the southeast part of the province.
The seventh-largest administrative district by area at , Gansu lies between the Tibet ...
in AD 143, the seismoscope indicated an earthquake even though one was not felt. The available text says that inside the vessel was a central column that could move along eight tracks; this is thought to refer to a pendulum, though it is not known exactly how this was linked to a mechanism that would open only one dragon's mouth. The first earthquake recorded by this seismoscope was supposedly "somewhere in the east". Days later, a rider from the east reported this earthquake.
Early designs (1259–1839)
By the 13th century, seismographic devices existed in the
Maragheh observatory
The Maragheh observatory (Persian: رصدخانه مراغه), also spelled Maragha, Maragah, Marageh, and Maraga, was an astronomical observatory established in the mid 13th century under the patronage of the Ilkhanid Hulagu and the directorship ...
(founded 1259) in Persia, though it is unclear whether these were constructed independently or based on the first seismoscope. French physicist and priest
Jean de Hautefeuille
Jean de Hautefeuille (, 20 March 1647 – 18 October 1724) was a French abbé, physicist and inventor.
Biography
Hautefeuille was born in Orléans, France. While still young, his experimental activities came to the attention of Marie Anne Man ...
described a seismoscope in 1703,
which used a bowl filled with mercury which would spill into one of eight receivers equally spaced around the bowl, though there is no evidence that he actually constructed the device.
A mercury seismoscope was constructed in 1784 or 1785 by
Atanasio Cavalli
Atanasio is a masculine given name which may refer to:
* Atanasiu di Iaci (Atanasio in Italian), 13th century Italian Benedictine monk and historiographer
* Atanasio Aguirre, President of Uruguay from 1864 to 1865
* Atanasio Bello Montero (1800– ...
, a copy of which can be found at the University Library in Bologna, and a further mercury seismoscope was constructed by
Niccolò Cacciatore
Niccolò Cacciatore (; 26 January 1770 – 28 January 1841) was an Italian astronomer.
Cacciatore was born at Casteltermini, in Sicily. While studying mathematics and physics in Palermo, he became acquainted with Giuseppe Piazzi, head of the Pale ...
in 1818.
James Lind also built a seismological tool of unknown design or efficacy (known as an earthquake machine) in the late 1790s.
Pendulum devices were developing at the same time. Neapolitan naturalist
Nicola Cirillo
Nicola may refer to:
People
* Nicola (name), including a list of people with the given name or, less commonly, the surname
**Nicola (artist) or Nicoleta Alexandru, singer who represented Romania at the 2003 Eurovision Song Contest
* Nicola people, ...
set up a network of pendulum earthquake detectors following the 1731 Puglia Earthquake, where the amplitude was detected using a protractor to measure the swinging motion. Benedictine monk
Andrea Bina
Andrea is a given name which is common worldwide for both males and females, cognate to Andreas, Andrej and Andrew.
Origin of the name
The name derives from the Greek word ἀνήρ (''anēr''), genitive ἀνδρός (''andrós''), that re ...
further developed this concept in 1751, having the pendulum create trace marks in sand under the mechanism, providing both magnitude and direction of motion. Neapolitan clockmaker Domenico Salsano produced a similar pendulum which recorded using a paintbrush in 1783, labelling it a ''geo-sismometro'', possibly the first use of a similar word to ''seismometer''. Naturalist Nicolo Zupo devised an instrument to detect electrical disturbances and earthquakes at the same time (1784).
The first moderately successful device for detecting the time of an earthquake was devised by
Ascanio Filomarino
Ascanio Filomarino (1583 – 3 November 1666) was an Italian Roman Catholic cardinal, who was Archbishop of Naples from 1641 to 1666.
Early life
Filomarino was born in Naples to the noble family of the dukes Della Torre. Eldest of the five sons of ...
in 1796, who improved upon Salsano's pendulum instrument, using a pencil to mark, and using a hair attached to the mechanism to inhibit the motion of a clock's balance wheel. This meant that the clock would only start once an earthquake took place, allowing determination of the time of incidence.
After an earthquake taking place on October 4, 1834,
Luigi Pagani
is a fictional character featured in video games and related media released by Nintendo. Created by Japanese video game designer Shigeru Miyamoto, Luigi is portrayed as the younger fraternal twin brother and sidekick of Mario, Nintendo's masc ...
observed that the mercury seismoscope held at
Bologna University
The University of Bologna ( it, Alma Mater Studiorum – Università di Bologna, UNIBO) is a public research university in Bologna, Italy. Founded in 1088 by an organised guild of students (''studiorum''), it is the oldest university in continuo ...
had completely spilled over, and did not provide useful information. He therefore devised a portable device that used
lead shot to detect the direction of an earthquake, where the lead fell into four bins arranged in a circle, to determine the quadrant of earthquake incidence. He completed the instrument in 1841.
Early Modern designs (1839–1880)
In response to a series of earthquakes near
Comrie Comrie may refer to:
Places
*Comrie (crater), a lunar crater
*Comrie, Fife, a village in Fife, Scotland
*Comrie, Perth and Kinross, a village and parish in Strathearn, Scotland
People with the surname
*Aaron Comrie (born 1997), Scottish footballer ...
in
Scotland in 1839, a committee was formed in the
United Kingdom in order to produce better detection devices for earthquakes. The outcome of this was an inverted pendulum seismometer constructed by
James David Forbes
James David Forbes (1809–1868) was a Scottish physicist and glaciologist who worked extensively on the conduction of heat and seismology. Forbes was a resident of Edinburgh for most of his life, educated at its University and a professor ...
, first presented in a report by
David Milne-Home in 1842, which recorded the measurements of seismic activity through the use of a pencil placed on paper above the pendulum. The designs provided did not prove effective, according to Milne's reports.
It was Milne who coined the word ''seismometer'' in 1841, to describe this instrument.
In 1843, the first horizontal pendulum was used in a seismometer, reported by Milne (though it is unclear if he was the original inventor).
After these inventions,
Robert Mallet published an 1848 paper where he suggested ideas for seismometer design, suggesting that such a device would need to register time, record amplitudes horizontally and vertically, and ascertain direction. His suggested design was funded, and construction was attempted, but his final design did not fulfill his expectations and suffered from the same problems as the Forbes design, being inaccurate and not self-recording.
Karl Kreil
Karl Kreil (1798–1862) was an Austrian meteorologist and astronomer, born in Ried.
Before university, he was educated at the Benedictine Kremsmünster Abbey, under the astronomer Boniface Schwarzenbrunner. He was educated at the University o ...
constructed a seismometer in
Prague between 1848 and 1850, which used a point-suspended rigid cylindrical pendulum covered in paper, drawn upon by a fixed pencil. The cylinder was rotated every 24 hours, providing an approximate time for a given quake.
Luigi Palmieri
Luigi Palmieri (22 April 1807 – 9 September 1896) was an Italian physicist and meteorologist. He was famous for his scientific studies of the eruptions of Mount Vesuvius, for his researches on earthquakes and meteorological phenomena and for i ...
, influenced by Mallet's 1848 paper,
invented a seismometer in 1856 that could record the time of an earthquake. This device used metallic pendulums which closed an
electric circuit with vibration, which then powered an electromagnet to stop a clock. Palmieri seismometers were widely distributed and used for a long time.
By 1872, a committee in the United Kingdom led by
James Bryce James Bryce may refer to:
*James Bryce (geologist) (1806–1877), Irish naturalist and geologist
* James Bryce (footballer) (1884–1916), Scottish footballer
*James Bryce, 1st Viscount Bryce (1838–1922), British jurist, historian and politician
...
expressed their dissatisfaction with the current available seismometers, still using the large 1842 Forbes device located in Comrie Parish Church, and requested a seismometer which was compact, easy to install and easy to read. In 1875 they settled on a large example of the Mallet device, consisting of an array of cylinderical
pins
A pin is a device used for fastening objects or material together.
Pin or PIN may also refer to:
Computers and technology
* Personal identification number (PIN), to access a secured system
** PIN pad, a PIN entry device
* PIN, a former Dutch de ...
of various sizes installed at right angles to each other on a sand bed, where larger earthquakes would knock down larger pins. This device was constructed in 'Earthquake House' near Comrie, which can be considered the world's first purpose-built seismological observatory.
As of 2013, no earthquake has been large enough to cause any of the cylinders to fall in either the original device or replicas.
The first seismographs (1880-)
The first seismographs were invented in the 1870s and 1880s. The first seismograph was produced by Filippo Cecchi in around 1875. A seismoscope would trigger the device to begin recording, and then a recording surface would produce a graphical illustration of the tremors automatically (a seismogram). However, the instrument was not sensitive enough, and the first seismogram produced by the instrument was in 1887, by which time
John Milne
John Milne (30 December 1850 – 31 July 1913) was a British geologist and mining engineer who worked on a horizontal seismograph.
Biography
Milne was born in Liverpool, England, the only child of John Milne of Milnrow, and at first raised in ...
had already demonstrated his design in
Japan
Japan ( ja, 日本, or , and formally , ''Nihonkoku'') is an island country in East Asia. It is situated in the northwest Pacific Ocean, and is bordered on the west by the Sea of Japan, while extending from the Sea of Okhotsk in the north ...
.
In 1880, the first horizontal pendulum seismometer was developed by the team of
John Milne
John Milne (30 December 1850 – 31 July 1913) was a British geologist and mining engineer who worked on a horizontal seismograph.
Biography
Milne was born in Liverpool, England, the only child of John Milne of Milnrow, and at first raised in ...
,
James Alfred Ewing
Sir James Alfred Ewing MInstitCE (27 March 1855 − 7 January 1935) was a Scottish physicist and engineer, best known for his work on the magnetic properties of metals and, in particular, for his discovery of, and coinage of the word, '' h ...
and
Thomas Gray, who worked as
foreign-government advisors in Japan, from 1880 to 1895.
Milne, Ewing and Gray, all having been hired by the
Meiji Government in the previous five years to assist Japan's
modernization
Modernization theory is used to explain the process of modernization within societies. The "classical" theories of modernization of the 1950s and 1960s drew on sociological analyses of Karl Marx, Emile Durkheim and a partial reading of Max Weber, ...
efforts, founded the Seismological Society of Japan in response to an Earthquake that took place on February 22, 1880, at Yokohama. Two instruments were constructed by Ewing over the next year, one being a common-pendulum seismometer and the other being the first seismometer using a damped horizontal pendulum. The innovative recording system allowed for a continuous record, the first to do so. The first seismogram was recorded on 3 November 1880 on both of Ewing's instruments.
Modern seismometers would eventually descend from these designs. Milne has been referred to as the 'Father of modern seismology' and his seismograph design has been called the first modern seismometer.
This produced the first effective measurement of horizontal motion. Gray would produce the first reliable method for recording vertical motion, which produced the first effective 3-axis recordings.
An early special-purpose seismometer consisted of a large, stationary
pendulum, with a
stylus
A stylus (plural styli or styluses) is a writing utensil or a small tool for some other form of marking or shaping, for example, in pottery. It can also be a computer accessory that is used to assist in navigating or providing more precision w ...
on the bottom. As the
earth started to move, the heavy mass of the pendulum had the
inertia to stay still within the
frame. The result is that the stylus scratched a pattern corresponding with the Earth's movement. This type of strong-motion seismometer recorded upon a
smoked glass
Smoked glass is glass held in the smoke of a candle flame (or other inefficiently burning hydrocarbon) such that one surface of the sheet of glass is covered in a layer of smoke residue. The glass is used as a medium for recording pen traces in sc ...
(glass with carbon
soot). While not sensitive enough to detect distant earthquakes, this instrument could indicate the direction of the pressure waves and thus help find the epicenter of a local quake. Such instruments were useful in the analysis of the
1906 San Francisco earthquake
At 05:12 Pacific Standard Time on Wednesday, April 18, 1906, the coast of Northern California was struck by a major earthquake with an estimated moment magnitude of 7.9 and a maximum Mercalli intensity of XI (''Extreme''). High-intensity sha ...
. Further analysis was performed in the 1980s, using these early recordings, enabling a more precise determination of the initial fault break location in
Marin county
Marin County is a county located in the northwestern part of the San Francisco Bay Area of the U.S. state of California. As of the 2020 census, the population was 262,231. Its county seat and largest city is San Rafael. Marin County is acros ...
and its subsequent progression, mostly to the south.
Later, professional suites of instruments for the worldwide standard seismographic network had one set of instruments tuned to oscillate at fifteen seconds, and the other at ninety seconds, each set measuring in three directions. Amateurs or observatories with limited means tuned their smaller, less sensitive instruments to ten seconds.
The basic damped horizontal pendulum seismometer swings like the gate of a fence. A heavy weight is mounted on the point of a long (from 10 cm to several meters) triangle, hinged at its vertical edge. As the ground moves, the weight stays unmoving, swinging the "gate" on the hinge.
The advantage of a horizontal pendulum is that it achieves very low frequencies of oscillation in a compact instrument. The "gate" is slightly tilted, so the weight tends to slowly return to a central position. The pendulum is adjusted (before the damping is installed) to oscillate once per three seconds, or once per thirty seconds. The general-purpose instruments of small stations or amateurs usually oscillate once per ten seconds. A pan of oil is placed under the arm, and a small sheet of metal mounted on the underside of the arm drags in the oil to damp oscillations. The level of oil, position on the arm, and angle and size of sheet is adjusted until the damping is "critical", that is, almost having oscillation. The hinge is very low friction, often torsion wires, so the only friction is the internal friction of the wire. Small seismographs with low proof masses are placed in a vacuum to reduce disturbances from air currents.
Zollner described torsionally suspended horizontal pendulums as early as 1869, but developed them for gravimetry rather than seismometry.
Early seismometers had an arrangement of levers on jeweled bearings, to scratch smoked glass or paper. Later, mirrors reflected a light beam to a direct-recording plate or roll of photographic paper. Briefly, some designs returned to mechanical movements to save money. In mid-twentieth-century systems, the light was reflected to a pair of differential electronic photosensors called a photomultiplier. The voltage generated in the photomultiplier was used to drive galvanometers which had a small mirror mounted on the axis. The moving reflected light beam would strike the surface of the turning drum, which was covered with photo-sensitive paper. The expense of developing photo-sensitive paper caused many seismic observatories to switch to ink or thermal-sensitive paper.
After World War II, the seismometers developed by Milne, Ewing and Gray were adapted into the widely used
Press-Ewing seismometer.
Modern instruments
Modern instruments use electronic sensors, amplifiers, and recording devices. Most are broadband covering a wide range of frequencies. Some seismometers can measure motions with frequencies from 500 Hz to 0.00118 Hz (1/500 = 0.002 seconds per cycle, to 1/0.00118 = 850 seconds per cycle). The mechanical suspension for horizontal instruments remains the garden-gate described above. Vertical instruments use some kind of constant-force suspension, such as the
LaCoste suspension. The LaCoste suspension uses a
zero-length spring
A spring is an elastic object that stores mechanical energy. In everyday use the term often refers to coil springs, but there are many different spring designs. Modern springs are typically manufactured from spring steel, although some non- ...
to provide a long period (high sensitivity). Some modern instruments use a
"triaxial" or "Galperin" design, in which three identical motion sensors are set at the same angle to the vertical but 120 degrees apart on the horizontal. Vertical and horizontal motions can be computed from the outputs of the three sensors.
Seismometers unavoidably introduce some distortion into the signals they measure, but professionally designed systems have carefully characterized frequency transforms.
Modern sensitivities come in three broad ranges:
geophones, 50 to 750
V/m; local geologic seismographs, about 1,500 V/m; and teleseismographs, used for world survey, about 20,000 V/m. Instruments come in three main varieties: short period, long period and broadband. The short and long period measure velocity and are very sensitive, however they 'clip' the signal or go off-scale for ground motion that is strong enough to be felt by people. A 24-bit analog-to-digital conversion channel is commonplace. Practical devices are linear to roughly one part per million.
Delivered seismometers come with two styles of output: analog and digital. Analog seismographs require analog recording equipment, possibly including an analog-to-digital converter. The output of a digital seismograph can be simply input to a computer. It presents the data in a standard digital format (often "SE2" over
Ethernet).
Teleseismometers
The modern broadband seismograph can record a very broad range of
frequencies
Frequency is the number of occurrences of a repeating event per unit of time. It is also occasionally referred to as ''temporal frequency'' for clarity, and is distinct from ''angular frequency''. Frequency is measured in hertz (Hz) which is eq ...
. It consists of a small "proof mass", confined by electrical forces, driven by sophisticated
electronics. As the earth moves, the electronics attempt to hold the mass steady through a
feedback
Feedback occurs when outputs of a system are routed back as inputs as part of a chain of cause-and-effect that forms a circuit or loop. The system can then be said to ''feed back'' into itself. The notion of cause-and-effect has to be handled ...
circuit. The amount of force necessary to achieve this is then recorded.
In most designs the electronics holds a mass motionless relative to the frame. This device is called a "force balance accelerometer". It measures
acceleration instead of velocity of ground movement. Basically, the distance between the mass and some part of the frame is measured very precisely, by a
linear variable differential transformer
The linear variable differential transformer (LVDT) (also called linear variable displacement transformer, linear variable displacement transducer, or simply differential transformer) is a type of electrical transformer used for measuring linear d ...
. Some instruments use a
linear variable differential capacitor.
That measurement is then amplified by
electronic amplifier
An amplifier, electronic amplifier or (informally) amp is an electronic device that can increase the magnitude of a Signal (information theory), signal (a time-varying voltage or Electric current, current). It may increase the power (physics ...
s attached to parts of an electronic
negative feedback loop
Negative feedback (or balancing feedback) occurs when some function of the output of a system, process, or mechanism is fed back in a manner that tends to reduce the fluctuations in the output, whether caused by changes in the input or by other ...
. One of the amplified currents from the negative feedback loop drives a coil very like a
loudspeaker. The result is that the mass stays nearly motionless.
Most instruments measure directly the ground motion using the distance sensor. The voltage generated in a sense coil on the mass by the magnet directly measures the instantaneous velocity of the ground. The current to the drive coil provides a sensitive, accurate measurement of the force between the mass and frame, thus measuring directly the ground's acceleration (using f=ma where f=force, m=mass, a=acceleration).
One of the continuing problems with sensitive vertical seismographs is the buoyancy of their masses. The uneven changes in pressure caused by wind blowing on an open window can easily change the density of the air in a room enough to cause a vertical seismograph to show spurious signals. Therefore, most professional seismographs are sealed in rigid gas-tight enclosures. For example, this is why a common Streckeisen model has a thick glass base that must be glued to its pier without bubbles in the glue.
It might seem logical to make the heavy magnet serve as a mass, but that subjects the seismograph to errors when the Earth's magnetic field moves. This is also why seismograph's moving parts are constructed from a material that interacts minimally with magnetic fields. A seismograph is also sensitive to changes in temperature so many instruments are constructed from low expansion materials such as nonmagnetic
invar.
The hinges on a seismograph are usually patented, and by the time the patent has expired, the design has been improved. The most successful public domain designs use thin foil hinges in a clamp.
Another issue is that the
transfer function of a seismograph must be accurately characterized, so that its frequency response is known. This is often the crucial difference between professional and amateur instruments. Most instruments are characterized on a variable frequency shaking table.
Strong-motion seismometers
Another type of seismometer is a digital strong-motion seismometer, or
accelerograph. The data from such an instrument is essential to understand how an earthquake affects man-made structures, through
earthquake engineering
Earthquake engineering is an interdisciplinary branch of engineering that designs and analyzes structures, such as buildings and bridges, with earthquakes in mind. Its overall goal is to make such structures more resistant to earthquakes. An earth ...
. The recordings of such instruments are crucial for the assessment of
seismic hazard, through
engineering seismology.
A strong-motion seismometer measures acceleration. This can be mathematically
integrated later to give velocity and position. Strong-motion seismometers are not as sensitive to ground motions as teleseismic instruments but they stay on scale during the strongest seismic shaking.
Strong motion sensors are used for intensity meter applications.
Other forms
Accelerographs and
geophones are often heavy cylindrical magnets with a spring-mounted coil inside. As the case moves, the coil tends to stay stationary, so the magnetic field cuts the wires, inducing current in the output wires. They receive frequencies from several hundred hertz down to 1 Hz. Some have electronic damping, a low-budget way to get some of the performance of the closed-loop wide-band geologic seismographs.
Strain-beam accelerometers constructed as integrated circuits are too insensitive for geologic seismographs (2002), but are widely used in geophones.
Some other sensitive designs measure the current generated by the flow of a non-corrosive ionic fluid through an
electret sponge or a conductive fluid through a
magnetic field
A magnetic field is a vector field that describes the magnetic influence on moving electric charges, electric currents, and magnetic materials. A moving charge in a magnetic field experiences a force perpendicular to its own velocity and to ...
.
Interconnected seismometers
Seismometers spaced in a
seismic array
A seismic array is a system of linked seismometers arranged in a regular geometric pattern (cross, circle, rectangular etc.) to increase sensitivity to earthquake and explosion detection. A seismic array differs from a local network of seismic sta ...
can also be used to precisely locate, in three dimensions, the source of an earthquake, using the time it takes for
seismic waves to propagate away from the
hypocenter, the initiating point of
fault rupture (See also
Earthquake location
The primary purpose of a seismometer is to locate the initiating points of earthquake epicenters. The secondary purpose, of determining the 'size' or Moment magnitude scale must be calculated after the precise location is known.
The earliest seis ...
). Interconnected seismometers are also used, as part of the
International Monitoring System
The Preparatory Commission for the Comprehensive Nuclear-Test-Ban Treaty Organization, or CTBTO Preparatory Commission, is an international organization based in Vienna, Austria, that is tasked with building up the verification regime of the Com ...
to detect underground
nuclear test explosions, as well as for
Earthquake early warning
An earthquake warning system or earthquake early warning system is a system of accelerometers, seismometers, communication, computers, and alarms that is devised for notifying adjoining regions of a substantial earthquake while it is in progress ...
systems. These seismometers are often used as part of a large scale governmental or scientific project, but some organizations such as the
Quake-Catcher Network
The Quake-Catcher Network is an initiative run by the University of Southern California that aims to use computer-based accelerometers to detect earthquakes. It uses the BOINC volunteer computing platform (a form of distributed computing
A di ...
, can use residential size detectors built into computers to detect earthquakes as well.
In
reflection seismology
Reflection seismology (or seismic reflection) is a method of exploration geophysics that uses the principles of seismology to estimate the properties of the Earth's subsurface from reflected seismic waves. The method requires a controlled seismi ...
, an array of seismometers image sub-surface features. The data are reduced to images using algorithms similar to
tomography. The data reduction methods resemble those of computer-aided tomographic medical imaging X-ray machines (CAT-scans), or imaging
sonars.
A worldwide array of seismometers can actually image the interior of the Earth in wave-speed and transmissivity. This type of system uses events such as earthquakes,
impact event
An impact event is a collision between astronomical objects causing measurable effects. Impact events have physical consequences and have been found to regularly occur in planetary systems, though the most frequent involve asteroids, comets or me ...
s or
nuclear explosions as wave sources. The first efforts at this method used manual data reduction from paper seismograph charts. Modern digital seismograph records are better adapted to direct computer use. With inexpensive seismometer designs and internet access, amateurs and small institutions have even formed a "public seismograph network".
Seismographic systems used for petroleum or other mineral exploration historically used an explosive and a wireline of
geophones unrolled behind a truck. Now most short-range systems use "thumpers" that hit the ground, and some small commercial systems have such good digital signal processing that a few sledgehammer strikes provide enough signal for short-distance refractive surveys. Exotic cross or two-dimensional arrays of geophones are sometimes used to perform three-dimensional reflective imaging of subsurface features. Basic linear refractive geomapping software (once a black art) is available off-the-shelf, running on laptop computers, using strings as small as three geophones. Some systems now come in an 18" (0.5 m) plastic field case with a computer, display and printer in the cover.
Small seismic imaging systems are now sufficiently inexpensive to be used by civil engineers to survey foundation sites, locate bedrock, and find subsurface water.
Fiber optic cables as seismometers
A new technique for detecting earthquakes has been found, using
fiber optic cables.
In 2016 a team of metrologists running frequency
metrology
Metrology is the scientific study of measurement. It establishes a common understanding of units, crucial in linking human activities. Modern metrology has its roots in the French Revolution's political motivation to standardise units in Fran ...
experiments in England observed noise with a wave-form resembling the seismic waves generated by earthquakes. This was found to match seismological observations of an {{m, w, 6.0, link=y earthquake in Italy, ~1400 km away. Further experiments in England, Italy, and with a submarine fiber optic cable to
Malta detected additional earthquakes, including one 4,100 km away, and an {{m, l, 3.4, link=y earthquake 89 km away from the cable.
Seismic waves are detectable because they cause
micrometer Micrometer can mean:
* Micrometer (device), used for accurate measurements by means of a calibrated screw
* American spelling of micrometre
The micrometre ( international spelling as used by the International Bureau of Weights and Measures; ...
-scale changes in the length of the cable. As the length changes so does the time it takes a packet of light to traverse to the far end of the cable and back (using a second fiber). Using ultra-stable metrology-grade lasers, these extremely minute shifts of timing (on the order of
femtosecond
A femtosecond is a unit of time in the International System of Units (SI) equal to 10 or of a second; that is, one quadrillionth, or one millionth of one billionth, of a second. For context, a femtosecond is to a second as a second is to about 31. ...
s) appear as phase-changes.
The point of the cable first disturbed by an earthquake's
p-wave
A P wave (primary wave or pressure wave) is one of the two main types of elastic body waves, called seismic waves in seismology. P waves travel faster than other seismic waves and hence are the first signal from an earthquake to arrive at any ...
(essentially a sound wave in rock) can be determined by sending packets in both directions in the looped pair of optical fibers; the difference in the arrival times of the first pair of perturbed packets indicates the distance along the cable. This point is also the point closest to the earthquake's epicenter, which should be on a plane perpendicular to the cable. The difference between the p-wave/s-wave arrival times provides a distance (under ideal conditions), constraining the epicenter to a circle. A second detection on a non-parallel cable is needed to resolve the ambiguity of the resulting solution. Additional observations constrain the location of the earthquake's epicenter, and may resolve the depth.
This technique is expected to be a boon in observing earthquakes, especially the smaller ones, in vast portions of the global ocean where there are no seismometers, and at a cost much cheaper than ocean bottom seismometers.
Deep-Learning as seismometers
Researchers at Stanford University created a
deep-learning
Deep learning (also known as deep structured learning) is part of a broader family of machine learning methods based on artificial neural networks with representation learning. Learning can be supervised, semi-supervised or unsupervised.
De ...
algorithm called UrbanDenoiser which can detect earthquakes, particularly in urban cities.
[{{Cite journal , last1=Yang , first1=Lei , last2=Liu , first2=Xin , last3=Zhu , first3=Weiqiang , last4=Zhao , first4=Liang , last5=Beroza , first5=Gregory C. , date=2022-04-15 , title=Toward improved urban earthquake monitoring through deep-learning-based noise suppression , journal=Science Advances , language=en , volume=8 , issue=15 , pages=eabl3564 , doi=10.1126/sciadv.abl3564 , pmid=35417238 , pmc=9007499 , bibcode=2022SciA....8L3564Y , issn=2375-2548] The algorithm filters out the background noise from the sesmic noise gathered from busy cities in urban areas to detect earthquakes.
Recording
{{further, Seismogram
Today, the most common recorder is a computer with an analog-to-digital converter, a disk drive and an internet connection; for amateurs, a PC with a sound card and associated software is adequate. Most systems record continuously, but some record only when a signal is detected,
as shown by a short-term increase in the variation of the signal, compared to its long-term
average (which can vary slowly because of changes in seismic noise){{Citation needed, date=July 2014, also known as a STA/LTA trigger.
Prior to the availability of digital processing of seismic data in the late 1970s, the records were done in a few different forms on different types of media. A "Helicorder" drum was a device used to record data into photographic paper or in the form of paper and ink. A "Develocorder" was a machine that record data from up to 20 channels into a 16-mm film. The recorded film can be viewed by a machine. The reading and measuring from these types of media can be done by hand. After the digital processing has been used, the archives of the seismic data were recorded in magnetic tapes. Due to the deterioration of older magnetic tape medias, large number of waveforms from the archives are not recoverable.
[{{cite report, last1=Fogleman, first1=Kent A., last2=Lahr, first2=John C., last3=Stephens, first3=Christopher D., last4=Page, first4=Robert A., title=Earthquake Locations Determined by the Southern Alaska Seismograph Network for October 1971 through May 1989, date=June 1993, publisher=USGS, url=http://pubs.usgs.gov/of/1993/0309/]
See also
*
Accelerometer
*
Galitzine, Boris Borisovich
*
Geophone
*
Inge Lehmann
*
IRIS Consortium
*
John Milne
John Milne (30 December 1850 – 31 July 1913) was a British geologist and mining engineer who worked on a horizontal seismograph.
Biography
Milne was born in Liverpool, England, the only child of John Milne of Milnrow, and at first raised in ...
*
Pacific Northwest Seismic Network
The Pacific Northwest Seismic Network, or PNSN, collects and studies ground motions from about 400 seismometers in the U.S. states of Oregon and Washington. PNSN monitors volcanic and tectonic activity, gives advice and information to the public ...
*
Plate tectonics
*
Quake-Catcher Network
The Quake-Catcher Network is an initiative run by the University of Southern California that aims to use computer-based accelerometers to detect earthquakes. It uses the BOINC volunteer computing platform (a form of distributed computing
A di ...
*
Richter magnitude scale
References
{{reflist, colwidth=30em
External links
{{Commons category, Seismometers
The history of early seismometersThe Lehman amateur seismograph, from Scientific American not designed for calibrated measurement.
ttp://www.bryantlabs.net/VertSeis.html Also see Keith Payea's versionBoth accessed 2010-9-29 Morrissey was a professional seismographic instrument engineer. This superior design uses a zero-length spring to achieve a 60-second period, active feedback and a uniquely convenient variable reluctance differential transducer, with parts scavenged from a hardware store. The frequency transform is carefully designed, unlike most amateur instruments. Morrisey is deceased, but the site remains up as a public service.
SeisMacis a free tool for recent Macintosh laptop computers that implements a real-time three-axis seismograph.
discusses the history of development of the primary technology in global earthquake research.
Video of seismographat
Hawaiian Volcano Observatory – on
Flickr – retrieved on 2009-06-15.
Seismoscope– Research References 2012
Iris EDU– How Does A Seismometer Work?
Seismometers, seismographs, seismograms – what's the difference? How do they work?– USGS
{{Authority control
1880 introductions
Chinese inventions
Measuring instruments
Seismology instruments