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Gravitational-wave astronomy technique
A pulsar timing array (PTA) is a set of galactic pulsars that is monitored and analyzed to search for correlated signatures in the pulse arrival times
Pulsar_timing_array
Gravitational wave detection tool
tool used to establish the telltale signature that a galactic-scale pulsar timing array has detected gravitational waves, typically of wavelengths λ = 1
Hellings–Downs_curve
Radio telescope array
from its site, to search for transient sources. A secondary goal is pulsar timing, to aid in the search for gravitational waves. The project is managed
Deep_Synoptic_Array
Pulsar with a rotational period less than about 10 milliseconds
and the discoveries of many new millisecond pulsars advanced the sensitivity of the pulsar timing array to gravitational waves in the early stages of
Millisecond_pulsar
Europe-US-Canada-India-Australian radio astronomy and cosmology collaboration
Pulsar Timing Array (IPTA) is a multi-institutional, multi-telescope collaboration of pulsar timing arrays (PTAs). It comprises the European Pulsar Timing
International Pulsar Timing Array
International_Pulsar_Timing_Array
Type of neutron star with beams of radiation
Pulsar Timing Array (InPTA) in India. Together, the consortia form the International Pulsar Timing Array (IPTA). The pulses from Millisecond Pulsars (MSPs)
Pulsar
Radio telescope observatory in New South Wales, Australia
Pulsar Timing Array (IPTA), which also includes the North American Nanohertz Observatory for Gravitational Waves (NANOGrav) and the European Pulsar Timing
Parkes_Observatory
Five-radio telescope collaboration to track stellar remnants' gravitational waves
European Pulsar Timing Array (EPTA) is a European collaboration to combine five 100-m class radio-telescopes to observe an array of pulsars with the specific
European_Pulsar_Timing_Array
Radio telescope in Guizhou, China
communication signals (Search for extraterrestrial intelligence) Pulsar timing arrays The FAST telescope joined the Breakthrough Listen SETI project in
Five-hundred-meter Aperture Spherical Telescope
Five-hundred-meter_Aperture_Spherical_Telescope
Aspect of relativity in physics
frequency waves can be detected using pulsar timing arrays. In this technique, the timing of approximately 100 pulsars spread widely across the Milky Way
Gravitational_wave
Astronomy organization
millisecond pulsars to create a pulsar timing array. They use data from the Green Bank Telescope, Arecibo Observatory, the Very Large Array, and the Canadian
North American Nanohertz Observatory for Gravitational Waves
North_American_Nanohertz_Observatory_for_Gravitational_Waves
Device used to measure gravitational waves
from a merging binary of stellar black holes. In June 2023, four pulsar timing array collaborations presented the first strong evidence for a gravitational
Gravitational-wave observatory
Gravitational-wave_observatory
Italian astrophysicist
including ground-based laser interferometry with LIGO and Virgo, pulsar timing arrays, and the future space-based Laser Interferometer Space Antenna (LISA)
Alberto_Vecchio
Random background of gravitational waves permeating the Universe
Universe, which is detectable by gravitational-wave experiments, like pulsar timing arrays. The signal may be intrinsically random, due to stochastic processes
Gravitational_wave_background
American theoretical astrophysicist
of physics at the University of Florida best known for proposing pulsar timing arrays as a means to detect gravitational waves, an idea that led to the
Steven_Detweiler
Italian astrophysicist
astronomy. He is a member of the European Pulsar Timing Array (EPTA), the International Pulsar Timing Array (IPTA), and the LISA Consortium, the LISA
Alberto_Sesana
Collapsed core of a massive star
object depending on interpretation. For pulsars, such pulsar planets can be detected with the pulsar timing method, which allows for high precision and
Neutron_star
Time standard for astronomical observations from the Earth
Kramer, M.; Lam, M. T.; et al. (2020). "A pulsar-based time-scale from the International Pulsar Timing Array". Monthly Notices of the Royal Astronomical
Terrestrial_Time
Branch of astronomy using gravitational waves
Waves (NANOGrav), and the Parkes Pulsar Timing Array (PPTA), which co-operate as the International Pulsar Timing Array. These use existing radio telescopes
Gravitational-wave_astronomy
Speculative feature of the early universe
non-detection of gravitational waves by pulsar timing array data. The first detection of gravitational waves with pulsar timing array was confirmed in 2023. The earthbound
Cosmic_string
which are relatively far away from the pulsar. There are two main drawbacks to the pulsar timing method: pulsars are relatively rare, and special circumstances
Methods of detecting exoplanets
Methods_of_detecting_exoplanets
Canadian astrophysicist
collaborations such as NANOGrav, the European Pulsar Timing Array, and the Parkes Pulsar Timing Array. In 2013, Kaspi's research group reported the first
Victoria_Kaspi
Spanish-American astrophysicist
his contributions to gravitational wave astronomy, particularly in pulsar timing array science and the calibration of LIGO data. In 2023, he co-led the
Xavier_Siemens
Radio astronomy observatory in New Mexico, US
The Karl G. Jansky Very Large Array (VLA) is a centimeter-wavelength radio astronomy observatory in the southwestern United States built in the 1970s
Very_Large_Array
Navigation technique employing X-ray signals emitted by pulsars
X-ray pulsar-based navigation and timing (XNAV) or simply pulsar navigation is a navigation technique whereby the periodic X-ray signals emitted from pulsars
Pulsar-based_navigation
Radio telescope array in California
the gravitational wave background from massive black holes through pulsar timing. Measure molecular cloud and star formation properties using new molecular
Allen_Telescope_Array
Speed of electromagnetic waves in vacuum
Sun to the Earth. Historically the speed of light was used together with timing measurements to determine a value for the astronomical unit (AU). The astronomical
Speed_of_light
Theory of gravitation as curved spacetime
Burke-Spolaor, S.; et al. (2010), "The international pulsar timing array project: using pulsars as a gravitational wave detector", Classical and Quantum
General_relativity
European space mission to measure gravitational waves
April 2014. Stairs, Ingrid H. (2003). "Testing General Relativity with Pulsar Timing". Living Reviews in Relativity. 6 (1) 5. arXiv:astro-ph/0307536. Bibcode:2003LRR
Laser Interferometer Space Antenna
Laser_Interferometer_Space_Antenna
Astrophysical phenomenon
at first, a puzzle. Some considered rotational energy from the central pulsar as a source. Although the energy that initially powers each type of supernovae
Supernova
Signal with equal energy per octave
frequencies affects pulsar timing arrays, the European Pulsar Timing Array (EPTA) and the future International Pulsar Timing Array (IPTA); at low frequencies
Pink_noise
"Gravitational-Wave Tests of General Relativity with Ground-Based Detectors and Pulsar-Timing Arrays". Living Reviews in Relativity. 16 (1): 9. arXiv:1304.3473. Bibcode:2013LRR
Tests_of_general_relativity
Effort to find civilizations not from Earth
an Earth-based radio telescope array with 1,500 dishes known as "Project Cyclops". The price tag for the Cyclops array was US$10 billion. Cyclops was
Search for extraterrestrial intelligence
Search_for_extraterrestrial_intelligence
Effective mass of a binary system
Proposed: Atom interferometers Indirect detection B-modes of CMB Pulsar timing array Binary pulsar Theory General relativity Tests of general relativity Metric
Chirp_mass
Type of stellar collision
interferometers Planned LISA Proposed Big Bang Observer DECIGO TianQin Taiji Pulsar timing arrays EPTA IPTA NANOGrav PPTA Data analysis Einstein@Home PyCBC Zooniverse:
Neutron_star_merger
Pulsar in the constellation Pictor
Coles, W.; Levin, Y.; et al. (2016). "Timing analysis for 20 millisecond pulsars in the Parkes Pulsar Timing Array". Monthly Notices of the Royal Astronomical
PSR_J0437−4715
Diagram of different points in spacetime
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Penrose_diagram
Physics principle
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Principle_of_relativity
2015 detection made by LIGO interferometers
waves had been inferred only indirectly, via their effect on the timing of pulsars in binary star systems. The waveform, detected by both LIGO observatories
First observation of gravitational waves
First_observation_of_gravitational_waves
Trace radiation from the early universe
Sensitivity". arXiv:1006.1270v1 [astro-ph]. Liu, Hao; et al. (2010). "Diagnosing Timing Error in WMAP Data". Monthly Notices of the Royal Astronomical Society:
Cosmic_microwave_background
Set of spacetime events, light-connected to a given event
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Light_cone
Two pulsars orbiting each other
to the pulsar is usually difficult or impossible to observe directly, its presence can be deduced from the timing of the pulses from the pulsar itself
Binary_pulsar
American astrophysicist
in physics with Russell Alan Hulse "for the discovery of a new type of pulsar, a discovery that has opened up new possibilities for the study of gravitation"
Joseph_Hooton_Taylor_Jr.
Concept in physics and mathematics
) , {\displaystyle iH=\left({\begin{array}{ccccc}0&0&0&0&0\\0&0&0&0&0\\0&0&0&0&0\\0&0&0&0&1\\0&0&0&0&0\\\end{array}}\right),\qquad } i a → ⋅ P → = ( 0
Galilean_transformation
Proposed gravitational wave detector
interferometers Planned LISA Proposed Big Bang Observer DECIGO TianQin Taiji Pulsar timing arrays EPTA IPTA NANOGrav PPTA Data analysis Einstein@Home PyCBC Zooniverse:
Einstein_Telescope
Topics referred to by the same term
can refer to: Indian People's Theatre Association International Pulsar Timing Array Werner Ipta, German football player This disambiguation page lists
Ipta
Branch of differential geometry
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Riemannian_geometry
German-born theoretical physicist (1879–1955)
February 2016. Retrieved 6 July 2016. "Gravity investigated with a binary pulsar-Press Release: The 1993 Nobel Prize in Physics". Nobel Foundation. Archived
Albert_Einstein
Volunteer computing project
by their pulsed radio and gamma-ray emission as radio and/or gamma-ray pulsars. They also might be observable as continuous gravitational wave sources
Einstein@Home
Gravitational wave observatory site
existence was indirectly confirmed in 1974, when observations of the binary pulsar PSR 1913+16 showed an orbital decay which matched Einstein's predictions
LIGO
Compact astronomical body
during this era. In 1967, Antony Hewish and Jocelyn Bell Burnell discovered pulsars and by 1969, these were shown to be rapidly rotating neutron stars. Until
Black_hole
Two interrelated physics theories by Albert Einstein
as quasars (1963), the 3-kelvin microwave background radiation (1965), pulsars (1967), and the first black hole candidates (1981), the theory explained
Theory_of_relativity
SI unit of frequency
interferometers like LIGO, and the nanohertz (1–1000 nHz) range by pulsar timing arrays. Future space-based detectors are planned to fill in the gap, with
Hertz
American physicist and professor
is a professor at the University of Wisconsin–Milwaukee. She uses pulsar timing arrays to study the low-frequency gravitational waves from supermassive
Sarah_Vigeland
Low-velocity approximation of special relativity
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Galilean_invariance
Topics referred to by the same term
refer to: European Parliamentary Technology Assessment European Pulsar Timing Array Phosphotungstic acid Expanded Programme of Technical Assistance,
EPTA
(NANOGrav), the European Pulsar Timing Array (EPTA), the Parkes Pulsar Timing Array (Australia), and the Chinese Pulsar Timing Array report detection of a
Timeline of gravitational physics and relativity
Timeline_of_gravitational_physics_and_relativity
Topics referred to by the same term
Post-traumatic amnesia, state of confusion following a traumatic brain injury Pulsar timing array, technique to detect gravitational waves Pure tone audiometry, hearing
PTA
Gravitational-wave event detected in 2023
Proposed: Atom interferometers Indirect detection B-modes of CMB Pulsar timing array Binary pulsar Theory General relativity Tests of general relativity Metric
GW231123
Field-equations in general relativity
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Einstein_field_equations
Double pulsar in the constellation Puppis
by pulsar timing. Another discovery from the double pulsar is the observation of an eclipse from a conjunction of the superior and weaker pulsar. This
PSR_J0737−3039
Mathematical transformation in physics
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Time-translation_symmetry
Gravitational-wave signal detected in 2017
Nuclear astrophysics List of gravitational wave observations Hulse–Taylor pulsar Without a Bayesian prior, the expected periodicity of a time series based
GW170817
Russian and Soviet physicist and mathematician (1888–1925)
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Alexander_Friedmann
American physicist and director of the Max Planck Institute for Gravitational Physics
waves in data from ground-based interferometric detectors and from pulsar timing arrays, and on radio, gamma-ray and gravitational-wave signals from rotating
Bruce_Allen_(physicist)
Smallest stable circular orbit of a particle
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Innermost stable circular orbit
Innermost_stable_circular_orbit
2015 European Space Agency spacecraft
Proposed: Atom interferometers Indirect detection B-modes of CMB Pulsar timing array Binary pulsar Theory General relativity Tests of general relativity Metric
LISA_Pathfinder
Gravitational-wave observation
interferometers Planned LISA Proposed Big Bang Observer DECIGO TianQin Taiji Pulsar timing arrays EPTA IPTA NANOGrav PPTA Data analysis Einstein@Home PyCBC Zooniverse:
GW190521
Measure of relativistic velocity
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Rapidity
Pulsar in the constellation Vulpecula
ATNF Pulsar Catalogue". Retrieved 2010-02-11. Arzoumanian, Z.; Nice, D. J.; Taylor, J. H.; Thorsett, S. E. (1994). "Timing behavior of 96 radio pulsars".
PSR_B1919+21
Result in general relativity
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Raychaudhuri_equation
Italian-Canadian astrophysicist
gravitational wave signatures of such mergers. She will measure them using pulsar timing arrays, which can characterise the cosmic merger history of binary black
Chiara_Mingarelli
American physicist
survey for pulsars. It was this work that led to the discovery of the first binary pulsar. In 1974, Hulse and Taylor discovered binary pulsar PSR B1913
Russell_Alan_Hulse
Theory of gravity by Albert Einstein
1974 in a binary pulsar called PSR1913+16. In such a system, one of the orbiting stars is a pulsar. This has two consequences: a pulsar is an extremely
Introduction to general relativity
Introduction_to_general_relativity
Directional radio antenna used in radio astronomy
Telescope) or two-dimensional arrays of omnidirectional dipoles (e.g., Tony Hewish's Pulsar Array). All of the telescopes in the array are widely separated and
Radio_telescope
Relation of space and time in relativity theory
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Hyperbolic_orthogonality
Massive millisecond pulsar in the Milky Way
fastest-spinning pulsar known within the Milky Way. PSR J0952−0607 was discovered by the Low-Frequency Array (LOFAR) radio telescope during a search for pulsars in
PSR_J0952−0607
Mathematical model combining space and time
{\displaystyle p} ). In general, they will disagree about the exact location and timing of this impact, i.e., they will have different 4-tuples ( x , y , z , t
Spacetime
Effect in special relativity
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Terrell_rotation
Linear perturbations to solutions of nonlinear Einstein field equations
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Linearized_gravity
Measured time difference as explained by relativity theory
High-accuracy timekeeping, low-Earth-orbit satellite tracking, and pulsar timing are applications that require the consideration of the combined effects
Time_dilation
Proposed space-borne gravitational-wave observatory
interferometers Planned LISA Proposed Big Bang Observer DECIGO TianQin Taiji Pulsar timing arrays EPTA IPTA NANOGrav PPTA Data analysis Einstein@Home PyCBC Zooniverse:
TianQin
Millisecond pulsar in the constellation Microscopium
S2CID 122825311. Perera, B B P; et al. (October 12, 2019). "The International Pulsar Timing Array: second data release". Monthly Notices of the Royal Astronomical
PSR_J2124−3358
Former radio telescope in Puerto Rico, United States
binary pulsar PSR B1913+16, an accomplishment for which they later received the Nobel Prize in Physics. In 1982, the first millisecond pulsar, PSR B1937+21
Arecibo_Telescope
NASA satellite of the Explorer program
High-Energy X-ray Timing Experiment (HEXTE) and the Proportional Counter Array. The RXTE observed X-rays from black holes, neutron stars, X-ray pulsars and X-ray
Rossi_X-ray_Timing_Explorer
Chinese space program
Proposed: Atom interferometers Indirect detection B-modes of CMB Pulsar timing array Binary pulsar Theory General relativity Tests of general relativity Metric
Taiji_program
Hamiltonian formulation of general relativity
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
ADM_formalism
English mathematician, mathematical physicist (born 1931)
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Roger_Penrose
Formula in general relativity
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Quadrupole_formula
Issue in science history
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Relativity_priority_dispute
Gravitational-wave detector in Italy
long time scale. Prime candidates are rapidly-spinning neutron stars (pulsars), which may emit gravitational waves if they are not perfectly spherical
Virgo_interferometer
Time delay caused by space-time distortion near massive objects
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Shapiro_time_delay
Precession of satellite orbits due to a celestial body's presence affecting spacetime
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Geodetic_effect
Family of linear transformations
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Lorentz_transformation
Hypothesis that inertial and gravitational masses are equivalent
comparing the results to pulsar timing data. In 2014, astronomers discovered a stellar triple system containing a millisecond pulsar PSR J0337+1715 and two
Equivalence_principle
Concept that simultaneity depends on choice of reference frame
generally, electromagnetic radiation, is used for the establishment of timing relations because light has the fastest observed speed of propagation. This
Relativity_of_simultaneity
Physics concept expressed as E = mc²
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Mass–energy_equivalence
Dutch mathematician, physicist, and astronomer (1872–1934)
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Willem_de_Sitter
Equations describing classical electromagnetism
× E = − ∂ B ∂ t ∇ × B = μ 0 ( J + ε 0 ∂ E ∂ t ) {\displaystyle {\begin{array}{lcl}\nabla \cdot \mathbf {E} &=&{\frac {\rho }{\varepsilon _{0}}}\\\nabla
Maxwell's_equations
Belgian scientist and Catholic priest (1894–1966)
delay frame-dragging / geodetic effect (Lense–Thirring precession) pulsar timing arrays Advanced theories Brans–Dicke theory Kaluza–Klein Quantum gravity
Georges_Lemaître
PULSAR TIMING-ARRAY
PULSAR TIMING-ARRAY
Girl/Female
Indian
Glad tidings, Good news, Good tiding
Female
Finnish
Short form of Finnish Kristiina, TIINA means "Christian."
Girl/Female
Indian
Glad tidings, Good news, Good tiding
Male
English
 Alternate spelling of the English surname Deeming, DEMING means "act of judging." Compare with another form of Deming.
Surname or Lastname
English and German
English and German : variant spelling of Hemming.
Boy/Male
Arabic, Gujarati, Hindu, Indian, Kannada, Malayalam, Marathi, Telugu
Large Fish; Born Near the Sea
Surname or Lastname
English
English : habitational name from Twyning in Gloucestershire, which was originally named with Old English betwēonan ‘between’ + ēam, dative of ēa ‘river’, with the ending later being assimilated to -ingas ‘inhabitants’, ‘people’.
Male
Greek
(Τίμων) Greek name derived from the word time, TIMON means "honor."
Surname or Lastname
English
English : variant of Leeming.
Surname or Lastname
English
English : variant of Reading 2.
Boy/Male
Hindu
Large fish
Boy/Male
Buddhist, Hindu, Indian
Pillar; Fountain Base
Female
Hindi/Indian
(गà¥à¤²à¤œà¤¼à¤¾à¤°) Hindi unisex name GULZAR means "garden of flowers."
Surname or Lastname
English
English : habitational name for someone from a place called Fyning in Rogate in Sussex.
Girl/Female
Danish, French, German, Latin, Spanish
Pillar
Female
Persian/Iranian
(سیمین) Persian name SIMIN means "silvery."
Surname or Lastname
English (chiefly West Midlands)
English (chiefly West Midlands) : variant spelling of Timmons.
Girl/Female
Muslim
Glad tidings, Good news, Good tiding
Girl/Female
Muslim
Glad tidings, Good news, Good tiding
Surname or Lastname
English
English : from a medieval personal name, originally an Old English patronymic from a personal name or byname Tippa, for which there is evidence in place names such as Tiptree, but which is of uncertain origin.
PULSAR TIMING-ARRAY
PULSAR TIMING-ARRAY
Boy/Male
Indian
Resident of bagh, Baghshur
Boy/Male
Hindu
Padma is Lord venkateshwaras wife padmas Raja is therefore Lord venkateswara hence Padma Raj is another name of him. alternate names include Srinivas, Balaji, Venkatesh and Govinda
Girl/Female
African, Arabic, Australian, Muslim, Swahili
Beautiful
Girl/Female
Arabic, Australian, Muslim
Life
Boy/Male
Tamil
Poet of the kingdom, King of poet
Female
Danish
, noble ruler.
Girl/Female
English
Innocent. Last born. The name of the heroine of Shakespeare's play Cymbehoe as a result of a...
Boy/Male
Arabic, Muslim
The Subduer; The Almighty
Girl/Female
Arabic, Muslim
A Rose; Magic; Flower
Girl/Female
Muslim
Lotus, Water Lily
PULSAR TIMING-ARRAY
PULSAR TIMING-ARRAY
PULSAR TIMING-ARRAY
PULSAR TIMING-ARRAY
PULSAR TIMING-ARRAY
a.
That dives or is used or diving.
v. t.
To drive by a pulsation; to cause to pulsate.
p. a.
Looking; appearing; as, better or worse liking. See Like, to look.
v.
To throb, as a pulse; to beat, as the heart.
n.
Manner of life; as, riotous living; penurious living; earnest living.
n.
Approach; advent; manifestation; as, the coming of the train.
n.
The state of being pleasing; a suiting. See On liking, below.
n.
The act of furnishing with, or taking, arms.
v. i.
To beat, as the arteries; to move in pulses or beats; to pulsate; to throb.
n.
One of several species of sea birds, of the family procellariidae, allied to the albatrosses and petrels. Among the well-known species are the arctic fulmar (Fulmarus glacialis) (called also fulmar petrel, malduck, and mollemock), and the giant fulmar (Ossifraga gigantea).
a.
Approaching; of the future, especially the near future; the next; as, the coming week or year; the coming exhibition.
n.
Power of continuing life; the act of living, or living comfortably.
n.
A tiring-room.
n.
Figuratively, that which resembles such a pillar in appearance, character, or office; a supporter or mainstay; as, the Pillars of Hercules; a pillar of the state.
n.
Meal-taking; dining or supping.
a.
Of or pertaining to mines; as, mining engineer; mining machinery; a mining region.
a.
Of or pertaining to one of the poles of the earth, or of a sphere; situated near, or proceeding from, one of the poles; as, polar regions; polar seas; polar winds.
n.
One of the common people; a vulgar person.
a.
Having a support in the form of a pillar, instead of legs; as, a pillar drill.
n.
A treasurer, or cash keeper; a purser; as, the bursar of a college, or of a monastery.