Asteroseismology or astroseismology is the study of oscillations in stars. Stars have many
resonant
Resonance describes the phenomenon of increased amplitude that occurs when the frequency of an applied periodic force (or a Fourier component of it) is equal or close to a natural frequency of the system on which it acts. When an oscillatin ...
modes and frequencies, and the path of sound waves passing through a star depends on the
speed of sound
The speed of sound is the distance travelled per unit of time by a sound wave as it propagates through an elastic medium. At , the speed of sound in air is about , or one kilometre in or one mile in . It depends strongly on temperature as w ...
, which in turn depends on local temperature and chemical composition. Because the resulting oscillation modes are sensitive to different parts of the star, they inform astronomers about the internal structure of the star, which is otherwise not directly possible from overall properties like brightness and surface temperature.
Asteroseismology is closely related to
helioseismology
Helioseismology, a term coined by Douglas Gough, is the study of the structure and dynamics of the Sun through its oscillations. These are principally caused by sound waves that are continuously driven and damped by convection near the Sun's surfa ...
, the study of
stellar pulsation
Stellar pulsations are caused by expansions and contractions in the outer layers as a star seeks to maintain equilibrium. These fluctuations in stellar radius cause corresponding changes in the luminosity of the star. Astronomers are able to de ...
specifically in the
Sun
The Sun is the star at the center of the Solar System. It is a nearly perfect ball of hot plasma, heated to incandescence by nuclear fusion reactions in its core. The Sun radiates this energy mainly as light, ultraviolet, and infrared radi ...
. Though both are based on the same underlying physics, more and qualitatively different information is available for the Sun because its surface can be resolved.
Theoretical background
By linearly perturbing the equations defining the mechanical equilibrium of a star (i.e. mass conservation and
hydrostatic equilibrium
In fluid mechanics, hydrostatic equilibrium (hydrostatic balance, hydrostasy) is the condition of a fluid or plastic solid at rest, which occurs when external forces, such as gravity, are balanced by a pressure-gradient force. In the planetary ...
) and assuming that the perturbations are adiabatic, one can derive a system of four
differential equations
In mathematics, a differential equation is an equation that relates one or more unknown functions and their derivatives. In applications, the functions generally represent physical quantities, the derivatives represent their rates of change, an ...
whose solutions give the frequency and structure of a star's modes of oscillation. The stellar structure is usually assumed to be spherically symmetric, so the horizontal (i.e. non-radial) component of the oscillations is described by
spherical harmonics
In mathematics and physical science, spherical harmonics are special functions defined on the surface of a sphere. They are often employed in solving partial differential equations in many scientific fields.
Since the spherical harmonics form a ...
, indexed by an angular degree
and azimuthal order
. In non-rotating stars, modes with the same angular degree must all have the same frequency because there is no preferred axis. The angular degree indicates the number of nodal lines on the stellar surface, so for large values of
, the opposing sectors roughly cancel out, making it difficult to detect light variations. As a consequence, modes can only be detected up to an angular degree of about 3 in intensity and about 4 if observed in radial velocity.
By additionally assuming that the perturbation to the gravitational potential is negligible (the ''Cowling'' approximation) and that the star's structure varies more slowly with radius than the oscillation mode, the equations can be reduced approximately to one second-order equation for the radial component of the displacement eigenfunction
,
where
is the radial co-ordinate in the star,
is the angular frequency of the oscillation mode,
is the sound speed inside the star,
is the
Brunt–Väisälä or buoyancy frequency and
is the Lamb frequency.
The last two are defined by
and
respectively. By analogy with the behaviour of simple harmonic oscillators,
this implies that oscillating solutions exist when the frequency is either
greater or less than both
and
. We identify the former case
as high-frequency pressure modes (p-modes) and the latter as low-frequency
gravity modes (g-modes).
This basic separation allows us to determine (to reasonable accuracy)
where we expect what kind of mode to resonate in a star. By plotting the
curves
and
(for given
), we expect p-modes to resonate at frequencies below both
curves or frequencies above both curves.
Excitation mechanisms
Kappa-mechanism
Under fairly specific conditions, some stars have regions where heat is transported by radiation and the opacity is a sharply decreasing function of temperature. This opacity ''bump'' can drive oscillations through the
-mechanism (or ''Eddington valve''). Suppose that, at the beginning of an oscillation cycle, the stellar envelope has contracted. By expanding and cooling slightly, the layer in the opacity bump becomes more opaque, absorbs more radiation, and heats up. This heating causes expansion, further cooling and the layer becomes even more opaque. This continues until the material opacity stops increasing so rapidly, at which point the radiation trapped in the layer can escape. The star contracts and the cycle prepares to commence again. In this sense, the opacity acts like a valve that traps heat in the star's envelope.
Pulsations driven by the
-mechanism are coherent and have relatively large amplitudes. It drives the pulsations in many of the longest-known variable stars, including the
Cepheid
A Cepheid variable () is a type of star that pulsates radially, varying in both diameter and temperature and producing changes in brightness with a well-defined stable period and amplitude.
A strong direct relationship between a Cepheid varia ...
and
RR Lyrae variable
RR Lyrae variables are periodic variable stars, commonly found in globular clusters. They are used as standard candles to measure (extra) galactic distances, assisting with the cosmic distance ladder. This class is named after the prototype and ...
s.
Surface convection
In stars with surface convection zones, turbulent fluids motions near the surface simultaneously excite and damp oscillations across a broad range of frequency.
Because the modes are intrinsically stable, they have low amplitudes and are relatively short-lived. This is the driving mechanism in all solar-like oscillators.
Convective blocking
If the base of a surface convection zone is sharp and the convective timescales slower than the pulsation timescales, the convective flows react too slowly to perturbations that can build up into large, coherent pulsations. This mechanism is known as ''convective blocking''
and is believed to drive pulsations in the
Doradus variables.
Tidal excitation
Observations from the ''Kepler'' satellite revealed eccentric binary systems in which oscillations are excited during the closest approach. These systems are known as ''heartbeat'' stars because of the characteristic shape of the lightcurves.
Types of oscillators
Solar-like oscillators
Because solar oscillations are driven by near-surface convection, any stellar oscillations caused similarly are known as ''solar-like oscillations'' and the stars themselves as ''solar-like oscillators''. However, solar-like oscillations also occur in evolved stars (subgiants and red giants), which have convective envelopes, even though the stars are not ''Sun-like''.
Cepheid variables
Cepheid variables are one of the most important classes of pulsating star. They are core-helium burning stars with masses above about 5 solar masses. They principally oscillate at their fundamental modes, with typical periods ranging from days to months. Their pulsation periods are closely related to their luminosities, so it is possible to determine the distance to a Cepheid by measuring its oscillation period, computing its luminosity, and comparing this to its observed brightness.
Cepheid pulsations are excited by the kappa mechanism acting on the second ionization zone of helium.
RR Lyrae variables
RR Lyraes are similar to Cepheid variables but of lower metallicity (i.e.
Population II
During 1944, Walter Baade categorized groups of stars within the Milky Way into stellar populations.
In the abstract of the article by Baade, he recognizes that Jan Oort originally conceived this type of classification in 1926:
Baade noticed ...
) and much lower masses (about 0.6 to 0.8 time solar). They are core helium-burning giants that oscillate in one or both of their fundamental mode or first overtone. The oscillation are also driven by the kappa mechanism acting through the second ionization of helium. Many RR Lyraes, including RR Lyrae itself, show long period amplitude modulations, known as the
Blazhko effect The Blazhko effect, which is sometimes called long-period modulation, is a variation in period and amplitude in RR Lyrae type variable stars. It was first observed by Sergey Blazhko in 1907 in the star RW Draconis.
The physics behind the Blazhko ...
.
Delta Scuti and Gamma Doradus stars
Delta Scuti variables are found roughly where the classical instability strip intersects the main sequence. They are typically A- to early F-type dwarfs and subgiants and the oscillation modes are low-order radial and non-radial pressure modes, with periods ranging from 0.25 to 8 hours and magnitude variations anywhere between. Like Cepheid variables, the oscillations are driven by the kappa mechanism acting on the second ionization of helium.
SX Phoenicis variables are regarded as metal-poor relatives of Delta Scuti variables.
Gamma Doradus variables occur in similar stars to the red end of the Delta Scuti variables, usually of early F-type. The stars show multiple oscillation frequencies between about 0.5 and 3 days, which is much slower than the low-order pressure modes. Gamma Doradus oscillations are generally thought to be high-order gravity modes, excited by convective blocking.
Following results from ''Kepler'', it appears that many Delta Scuti stars also show Gamma Doradus oscillations and are therefore hybrids.
Rapidly oscillating Ap (roAp) stars
Rapidly oscillating Ap stars have similar parameters to Delta Scuti variables, mostly being A- and F-type, but they are also strongly magnetic and chemically peculiar (hence the ''p'' spectral subtype). Their dense mode spectra are understood in terms of the ''oblique pulsator model'': the mode's frequencies are modulated by the magnetic field, which is not necessarily aligned with the star's rotation (as is the case in the Earth). The oscillation modes have frequencies around 1500 μHz and amplitudes of a few mmag.
Slowly-pulsating B stars and Beta Cephei variables
Slowly-pulsating B (SPB) stars are B-type stars with oscillation periods of a few days, understood to be high-order gravity modes excited by the kappa mechanism. Beta Cephei variables are slightly hotter (and thus more massive), also have modes excited by the kappa mechanism and additionally oscillate in low-order gravity modes with periods of several hours. Both classes of oscillators contain only slowly-rotating stars.
Variable subdwarf B stars
Subdwarf B (sdB) stars are in essence the cores of core-helium burning giants who have somehow lost most of their hydrogen envelopes, to the extent that there is no hydrogen-burning shell. They have multiple oscillation periods that range between about 1 and 10 minutes and amplitudes anywhere between 0.001 and 0.3 mag in visible light. The oscillations are low-order pressure modes, excited by the kappa mechanism acting on the iron opacity bump.
White dwarfs
White dwarfs are characterized by spectral type, much like ordinary stars, except that the relationship between spectral type and effective temperature does not correspond in the same way. Thus, white dwarfs are known by types DO, DA and DB. Cooler types are physically possible but the Universe is too young for them to have cooled enough. White dwarfs of all three types are found to pulsate. The pulsators are known as GW Virginis stars (DO variables, sometimes also known as PG 1159 stars), V777 Herculis stars (DB variables) and ZZ Ceti stars (DA variables). All pulsate in low-degree, high-order g-modes. The oscillation periods broadly decrease with effective temperature, ranging from about 30 min down to about 1 minute. GW Virginis and ZZ Ceti stars are thought to be excited by the kappa mechanism; V777 Herculis stars by convective blocking.
Space missions
A number of past, present and future spacecraft have asteroseismology studies as a significant part of their missions (order chronological).
*
WIRE
Overhead power cabling. The conductor consists of seven strands of steel (centre, high tensile strength), surrounded by four outer layers of aluminium (high conductivity). Sample diameter 40 mm
A wire is a flexible strand of metal.
Wire is c ...
– A
NASA
The National Aeronautics and Space Administration (NASA ) is an independent agency of the US federal government responsible for the civil space program, aeronautics research, and space research.
NASA was established in 1958, succeeding t ...
satellite launched in 1999. A failed large infrared telescope, the two-inch aperture star tracker was used for more than a decade as a bright-star asteroseismology instrument. Re-entered Earth's atmosphere 2011.
*
MOST
Most or Möst or ''variation'', may refer to:
Places
* Most, Kardzhali Province, a village in Bulgaria
* Most (city), a city in the Czech Republic
** Most District, a district surrounding the city
** Most Basin, a lowland named after the city
** A ...
– A
Canadian
Canadians (french: Canadiens) are people identified with the country of Canada. This connection may be residential, legal, historical or cultural. For most Canadians, many (or all) of these connections exist and are collectively the source of ...
satellite launched in 2003. The first spacecraft dedicated to asteroseismology.
*
CoRoT
CoRoT (French: ; English: Convection, Rotation and planetary Transits) was a space telescope mission which operated from 2006 to 2013. The mission's two objectives were to search for extrasolar planets with short orbital periods, particularly th ...
– A
French led
ESA
, owners =
, headquarters = Paris, Île-de-France, France
, coordinates =
, spaceport = Guiana Space Centre
, seal = File:ESA emblem seal.png
, seal_size = 130px
, image = Views in the Main Control Room (1205 ...
planet-finder and asteroseismology satellite launched in 2006.
*
''Kepler'' – A
NASA
The National Aeronautics and Space Administration (NASA ) is an independent agency of the US federal government responsible for the civil space program, aeronautics research, and space research.
NASA was established in 1958, succeeding t ...
planet-finder spacecraft launched in 2009, repurposed as ''K2'' since the failure of a second reaction wheel prevented the telescope from continuing to monitor the same field.
*
BRITE
BRITE-Constellation is an ongoing space mission carrying out two-band photometry in wide fields with a constellation of six (presently, three operational) BRIght Target Explorer (BRITE) nanosatellites. The mission was built by a consortium of thr ...
– A constellation of nanosatellites used to study the brightest oscillating stars. FIrst two satellites launched Feb 25, 2013.
*
TESS Tess or TESS may refer to:
Music
* Tess (band), a Spanish pop band active from 2000 to 2005
* TESS (musician), a UK musician
Film and theatre
* ''Tess'' (1979 film), a 1979 film adaptation of '' Tess of the d'Urbervilles''
* ''Tess'' (2016 film) ...
– An
NASA
The National Aeronautics and Space Administration (NASA ) is an independent agency of the US federal government responsible for the civil space program, aeronautics research, and space research.
NASA was established in 1958, succeeding t ...
planet-finder that will survey bright stars across most of the sky launched in 2018.
*
PLATO
Plato ( ; grc-gre, Πλάτων ; 428/427 or 424/423 – 348/347 BC) was a Greek philosopher born in Athens during the Classical period in Ancient Greece. He founded the Platonist school of thought and the Academy, the first institution ...
– A planned
ESA
, owners =
, headquarters = Paris, Île-de-France, France
, coordinates =
, spaceport = Guiana Space Centre
, seal = File:ESA emblem seal.png
, seal_size = 130px
, image = Views in the Main Control Room (1205 ...
mission that will specifically exploit asteroseismology to obtain accurate masses and radii of transiting planets.
See also
*
Frequency separation
Frequency separation within astrophysics, is a term used in both Helioseismology
Helioseismology, a term coined by Douglas Gough, is the study of the structure and dynamics of the Sun through its oscillations. These are principally caused by s ...
*
Starquake
*
*
References
Further reading
*
*
*
Software
The
Variable Star' package (in R language) provides the main functions to analyzed patterns on the oscillation modes of variable stars. A
UI for experimentationwith synthetic data is also provided.
{{Authority control
Fields of seismology
Astrophysics
Stellar phenomena