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Part of signal processing in time-frequency analysis
The Wigner distribution function (WDF) is used in signal processing as a transform in time-frequency analysis. The WDF was first proposed in physics to
Wigner_distribution_function
Wigner distribution function in physics as opposed to in signal processing
The Wigner quasiprobability distribution, also called the Wigner function or the Wigner–Ville distribution, after Eugene Wigner and Jean-André Ville,
Wigner quasiprobability distribution
Wigner_quasiprobability_distribution
Variation of the Wigner distribution function
the Wigner distribution function is abbreviated here as WD rather than WDF as used at Wigner distribution function A Modified Wigner distribution function
Modified Wigner distribution function
Modified_Wigner_distribution_function
Topics referred to by the same term
Wigner distribution or Wigner function may refer to: Wigner quasiprobability distribution (what is most commonly intended by term "Wigner function"): a
Wigner_distribution
Probability distribution
The Wigner semicircle distribution, named after the physicist Eugene Wigner, is the probability distribution defined on the domain [−R, R] whose probability
Wigner semicircle distribution
Wigner_semicircle_distribution
Hungarian-American physicist and mathematician (1902–1995)
Gabor–Wigner transform Modified Wigner distribution function Wigner 3-j symbols Wigner distribution function Wigner–İnönü group contraction Wigner quasiprobability
Eugene_Wigner
Relativistic particle resonance and decay line broadening
Breit–Wigner distribution (after the 1936 nuclear resonance formula of Gregory Breit and Eugene Wigner) is a continuous probability distribution with the
Relativistic Breit–Wigner distribution
Relativistic_Breit–Wigner_distribution
Techniques and methods in signal processing
time–frequency distribution function (Wigner distribution function, or WDF), Modified Wigner distribution function, Gabor–Wigner distribution function, and so
Time–frequency_analysis
Tools for time-frequency analysis
Gabor transform, named after Dennis Gabor, and the Wigner distribution function, named after Eugene Wigner, are both tools for time-frequency analysis. Since
Gabor–Wigner_transform
Polynomial sequence
e^{+ikx}\psi _{n}(k)dk=i^{n}\psi _{n}(x)} The Wigner distribution function of the nth-order Hermite function is related to the nth-order Laguerre polynomial
Hermite_polynomials
processing, the polynomial Wigner–Ville distribution is a quasiprobability distribution that generalizes the Wigner distribution function. It was proposed by
Polynomial Wigner–Ville distribution
Polynomial_Wigner–Ville_distribution
Short-time Fourier transform (STFT), Gabor transform (GT) and Wigner distribution function (WDF) are famous time–frequency methods, useful for analyzing
Time–frequency analysis for music signals
Time–frequency_analysis_for_music_signals
Part of signal analysis and signal processing
Wigner distribution function. For multi-component signals in general, the distribution of its auto-term and cross-term within its Wigner distribution
Bilinear time–frequency distribution
Bilinear_time–frequency_distribution
Irreducible representation of the rotation group SO
The Wigner D-matrix is a unitary matrix in an irreducible representation of the groups SU(2) and SO(3). It was introduced in 1927 by Eugene Wigner, and
Wigner_D-matrix
Generalized function whose value is zero everywhere except at zero
Dirac delta function (or δ {\displaystyle {\boldsymbol {\delta }}} distribution), also known as the unit impulse, is a generalized function on the real
Dirac_delta_function
physicist E. P. Wigner. Bloch–Wigner function Breit–Wigner distribution (disambiguation) Relativistic Breit–Wigner distribution Bargmann–Wigner equations Jordan–Wigner
List of things named after Eugene Wigner
List_of_things_named_after_Eugene_Wigner
Probability distribution
Lorentz distribution (after Hendrik Lorentz), Cauchy–Lorentz distribution, Lorentz(ian) function, or Breit–Wigner distribution. The Cauchy distribution f (
Cauchy_distribution
Variation of Cohen's class distribution function
"ghost" interference patterns. Cone-shape distribution function Wigner distribution function Ambiguity function Short-time Fourier transform E. Sejdić,
Choi–Williams distribution function
Choi–Williams_distribution_function
Time-frequency transform in geophysics
disadvantages: the clarity is worse than Wigner distribution function and Cohen's class distribution function.[citation needed] A fast S transform algorithm
S_transform
Mapping between functions in the quantum phase space
mechanics, the Wigner–Weyl transform or Weyl–Wigner transform (after Hermann Weyl and Eugene Wigner) is the invertible mapping between functions in the quantum
Wigner–Weyl_transform
Thought experiment in theoretical quantum physics
Wigner's friend is a thought experiment in theoretical quantum physics, first published by the Hungarian-American physicist Eugene Wigner in 1961, and
Wigner's_friend
Scientific hypothesis in mathematical physics
In mathematical physics, the Wigner surmise is a statement about the probability distribution of the spaces between points in the spectra of nuclei of
Wigner_surmise
Variation of Cohen's class distribution function
for the Cone-Shape Distribution is the suppression of cross-terms (interference terms) that arise in the Wigner Distribution Function (WDF) when analyzing
Cone-shape distribution function
Cone-shape_distribution_function
characteristics Wigner–Weyl transform Deformation theory Wigner distribution function Modified Wigner distribution function Wigner quasiprobability distribution Negative
Method of quantum characteristics
Method_of_quantum_characteristics
Probability distribution
Voigt function is used. It is a convolution of a Relativistic Breit–Wigner distribution and a Gaussian distribution. An asymmetric pseudo-Voigt function, also
Voigt_profile
Probability distribution
r > 0 then 2rX − r ~ Wigner semicircle distribution. Beta(1/2, 1/2) is equivalent to the arcsine distribution. This distribution is also Jeffreys prior
Beta_distribution
N-dimensional sphere. The Wigner semicircle distribution is important in the theory of random matrices. The continuous Bernoulli distribution is a one-parameter
List of probability distributions
List_of_probability_distributions
Topics referred to by the same term
Frameworks, Microsoft software tools World Darts Federation Wigner distribution function Western Desert Force This disambiguation page lists articles
WDF
Restricted model of non-universal quantum computation
concerns Gaussian input states, i.e. states whose quasiprobability Wigner distribution function is a Gaussian one. The hardness of the corresponding sampling
Boson_sampling
Mathematical tool used in quantum mechanics
quantum states, similar to the Wigner quasiprobability distribution and Kirkwood–Dirac quasiprobability distribution. It was introduced by Henry Margenau
Margenau-Hill quasiprobability distribution
Margenau-Hill_quasiprobability_distribution
Type of stochastic process
second order, time-frequency analysis (e.g., Wavelet transform, Wigner distribution function, or Short-time Fourier transform) can be employed to isolate
Stationary_process
Probability distribution
Hermitian matrix. The distribution is defined as a Fredholm determinant. In practical terms, Tracy–Widom is the crossover function between the two phases
Tracy–Widom_distribution
Signal processing
any distribution is one, in which case the kernel of the Wigner distribution function (WDF) would be something else. The characteristic function is the
Transformation between distributions in time–frequency analysis
Transformation_between_distributions_in_time–frequency_analysis
Function of propagation delay and Doppler frequency
The ambiguity function plays a key role in the field of time–frequency signal processing, as it is related to the Wigner–Ville distribution by a 2-dimensional
Ambiguity_function
Montenegrin diplomat (born 1960)
2012, he was elected a member of Academia Europaea. Modified Wigner distribution function "Faculty of Electrical Engineering Podgorica University of Montenegro
Ljubiša_Stanković
Ability to automatically recognize targets
However, more robust methods such as the Gabor transform or the Wigner distribution function (WVD) can be used to provide a simultaneous representation of
Automatic_target_recognition
American electrical engineer
including time–frequency representation, wavelet transforms, and the Wigner distribution function. She is a professor emerita of electrical, computer and biomedical
G._Faye_Boudreaux-Bartels
Special case of the short-time Fourier transform
Time-frequency representation S transform Short-time Fourier transform Wigner distribution function E. Sejdić, I. Djurović, J. Jiang, “Time-frequency feature representation
Gabor_transform
Concept in statistics
expectation values can be derived. The characteristic functions for the Wigner, Glauber P and Q distributions of an N mode system are as follows: χ W ( z , z
Quasiprobability_distribution
Ville in 1948 to form what is now known as the Wigner–Ville distribution, as it was shown in that Wigner's formula needed to use the analytic signal defined
Time–frequency_representation
Interpretation of quantum mechanics
experiment as Wigner's friend and proposed that the consciousness of an observer is the demarcation line that precipitates collapse of the wave function, independent
Consciousness_causes_collapse
Computational physics simulation tool
by the Wigner distribution. Alternatively, one can compute the Husimi Q distribution by taking the Segal–Bargmann transform of the wave function and then
Husimi_Q_representation
Random matrix with gaussian entries
{1}{\sqrt {N}}}W_{N}} converges in distribution to the Wigner semicircle distribution with radius 2. That is, the distribution on [ − 2 , + 2 ] {\displaystyle
Gaussian_ensemble
Application of radar which is used to create two-dimensional images
sensitive to noise. Wigner distribution function Provides high-resolution time-frequency representation by analyzing signal energy distribution. High resolution
Imaging_radar
Family of probability distributions
The ranked eigenvalues En from these random matrices obey Wigner's semicircular distribution: For an N × N matrix the average density for eigenvalues of
Tweedie_distribution
Set of quantities in probability theory
higher than 2 of the normal distribution are zero. The free cumulants of degree higher than 2 of the Wigner semicircle distribution are zero. This is one respect
Cumulant
Axiomatization of quantum field theory
Wigner. This is to take advantage of the successful description of relativistic particles by E. P. Wigner in his famous paper of 1939; see Wigner's classification
Wightman_axioms
Concept in science
mathematical and logical consistency of such negative valuedness. The Wigner distribution function is routinely used in physics nowadays, and provides the cornerstone
Negative_probability
Formulation of quantum mechanics
wave functions or density matrices. There are several different ways to represent the distribution, all interrelated. The most noteworthy is the Wigner representation
Phase-space_formulation
Family of continuous probability distributions
of IV) Wigner semicircle distribution (subtype of II) As of 2025, the only types without a name are IV (see above) and XII (beta distribution with α +
Pearson_distribution
Husimi distribution. In 2004 Oliveira et al. developed a new wave-function formalism in phase space where the wave-function is associated to the Wigner quasiprobability
Phase-space_wavefunctions
Function of seven variables
systems. Hillery, M.; O'Connell, R.F.; Scully, M.O.; Wigner, E.P. (1984). "Distribution functions in physics: Fundamentals". Physics Reports. 106 (3):
Distribution function (physics)
Distribution_function_(physics)
Mathematical description of quantum state
measurements, to the wave function ψ and calculate the statistical distributions for measurable quantities. Wave functions can be functions of variables other
Wave_function
Generalization of the one-dimensional normal distribution to higher dimensions
statistics, the multivariate normal distribution, multivariate Gaussian distribution, or joint normal distribution is a generalization of the one-dimensional
Multivariate normal distribution
Multivariate_normal_distribution
Modification of frequency and time distributions of signals, as used in computer graphics
transforms: Short-time Fourier transform Wigner distribution function Ambiguity function Cohen's class distribution function J.J. Ding, "time-frequency analysis
Motions in the time-frequency distribution
Motions_in_the_time-frequency_distribution
Special mathematical functions defined on the surface of a sphere
equation also follows from the relation of the spherical harmonic functions with the Wigner D-matrix. Assuming the complex spherical harmonics are normalized
Spherical_harmonics
Quantum
12..778H. doi:10.1038/nphys3700. Wigner, E. P.; Yanase, M. M. (1 June 1963). "Information Contents of Distributions". Proceedings of the National Academy
Quantum_Fisher_information
Distribution of singular values of large rectangular random matrices
significantly different from random. Wigner semicircle distribution Tracy–Widom distribution Wishart distribution Bai & Silverstein 2010, Section 3.1.1
Marchenko–Pastur_distribution
Integral transform
matrices; this is also known as the additivity property of the Wigner distribution function (WDF). Occasionally the product of transforms can pick up a sign
Linear canonical transformation
Linear_canonical_transformation
Fourth standardized moment in statistics
distribution, cyan curve, excess kurtosis = −0.593762... W: Wigner semicircle distribution, blue curve, excess kurtosis = −1 U: uniform distribution,
Kurtosis
Sequence of differential equation solutions
Schrödinger equation for a one-electron atom. They also describe the static Wigner functions of oscillator systems in quantum mechanics in phase space. They further
Laguerre_polynomials
Area of physical and philosophical debate
conjugate of the wave function, which appears in the Born rule for calculating the expected value for an observable, as also real. Eugene Wigner argued that human
Interpretations of quantum mechanics
Interpretations_of_quantum_mechanics
light-field microscopy for 3D neural activity recording" M.J.Bastiaans et al., 2009 "The Wigner distribution function applied to optical signals and systems"
Phase space measurement with forward modeling
Phase_space_measurement_with_forward_modeling
Australian and American mathematician (born 1975)
other authors. In the 1950s, Eugene Wigner initiated the study of random matrices and their eigenvalues. Wigner studied the case of hermitian and symmetric
Terence_Tao
Special class of quantum states
bosonic case, its Wigner quasiprobability distribution is a Gaussian function in the optical phase space. Unlike general Wigner functions, which may take
Gaussian_state
Mathematical tool in quantum physics
theory Green–Kubo relations Green's function (many-body theory) Lindblad equation Wigner quasi-probability distribution Shankar, Ramamurti (2014). Principles
Density_matrix
Probability distribution
asymmetric Laplace distributions. A typical characterization of the symmetric multivariate Laplace distribution has the characteristic function: φ ( t ; μ ,
Multivariate Laplace distribution
Multivariate_Laplace_distribution
Kind of numerical parameter of a parametric family of probability distributions
distribution Logistic distribution Normal distribution Raised cosine distribution Uniform distribution Wigner semicircle distribution Skewness Kurtosis Location
Shape_parameter
Type of quantum state
the Wigner quasi-probability distribution. The intensity of the light wave, its coherent excitation, is given by the displacement of the Wigner distribution
Squeezed_coherent_state
Formulation of classical mechanics using momenta
and Wigner–Weyl transform). This more algebraic approach not only permits ultimately extending probability distributions in phase space to Wigner quasi-probability
Hamiltonian_mechanics
Probability distribution used in multivariate hypothesis testing
In statistics, Wilks' lambda distribution (named for Samuel S. Wilks), is a probability distribution used in multivariate hypothesis testing, especially
Wilks's_lambda_distribution
Type of probability distribution
unchanged when its probability density function (for continuous probability distribution) or probability mass function (for discrete random variables) is
Symmetric probability distribution
Symmetric_probability_distribution
Force resulting from the quantisation of a field
system as a function of the arrangement of objects, such as atoms, in configuration space. The change in the zero-point energy as a function of changes
Casimir_effect
Description of a quantum-mechanical system
integral formulation of quantum mechanics Schrödinger picture Wigner quasiprobability distribution This rule for obtaining probabilities from a state vector
Schrödinger_equation
Cryptography based on quantum mechanical phenomena
"key-management problem"). Moreover, this distribution alone does not address many other cryptographic tasks and functions, which are of vital importance in everyday
Quantum_cryptography
Function in quantum field theory showing probability amplitudes of moving particles
In quantum mechanics and quantum field theory, the propagator is a function that specifies the probability amplitude for a particle to travel from one
Propagator
Matrix-valued random variable
Eugene Wigner and Leonard Eisenbud approximated that the nuclear Hamiltonian could be modeled as a random matrix. For larger atoms, the distribution of the
Random_matrix
Generalization of perpendicularity
polynomials of the second kind are orthogonal with respect to the Wigner semicircle distribution. In combinatorics, two n × n {\displaystyle n\times n} Latin
Orthogonality_(mathematics)
American mathematician (1923–2011)
national media. Wilkins and Eugene Wigner co-developed the Wigner-Wilkins approach for estimating the distribution of neutron energies within nuclear
J._Ernest_Wilkins_Jr.
Interpretation of quantum mechanics
removed the postulate of wave function collapse from the theory. In 1985, David Deutsch proposed a variant of the Wigner's friend thought experiment as
Many-worlds_interpretation
Nuclear physicist (born 1943)
semi-classical approximations using the Wigner phase space distribution function. He explored the expressions for the Wigner Transform and the Pauli blocking
Shalom_Shlomo
Physical quantity
of a cube with per-particle volume 1⁄n. Another such estimation is the Wigner–Seitz radius r s = 3 4 π n 3 {\displaystyle r_{s}={\sqrt[{3}]{\frac {3}{4\pi
Mean_inter-particle_distance
Signal processing algorithm
spectrogram, is the Wigner–Ville distribution, which may be interpreted as a short-time Fourier transform with a window function that is perfectly matched
Reassignment_method
Family of distributions that generalize the multivariate normal distribution
characteristic function of probability theory. A random vector X {\displaystyle X} on a Euclidean space has an elliptical distribution if its characteristic
Elliptical_distribution
Mathematical operation
National Taiwan University (NTU). Lohmann, A. W. (1993). "Image rotation, Wigner rotation and the fractional Fourier transform". J. Opt. Soc. Am. A (10):
Fractional_Fourier_transform
Theoretical framework in physics
theory Ward–Takahashi identity Wheeler–Feynman absorber theory Wigner's classification Wigner's theorem Peskin, M.; Schroeder, D. (1995). An Introduction to
Quantum_field_theory
Signal representation
Geoscience 9 (9), 382. Boashash, B. (Sep 1988). "Note on the Use of the Wigner Distribution for Time Frequency Signal Analysis" (PDF). IEEE Transactions on Acoustics
Frequency_domain
deconvolution Wiener filter Wiener process Wigner quasi-probability distribution Wigner semicircle distribution Wike's law of low odd primes Wilcoxon signed-rank
List_of_statistics_articles
phase-space integrals of observables such as the above f with the Wigner quasi-probability distribution effectively serving as a measure. Thus, by expressing quantum
Deformation_quantization
Formulation of quantum mechanics
is a function of the position and momentum at one time, and it determines the position and momentum a little later. The Lagrangian is a function of the
Path-integral_formulation
British theoretical physicist and mathematician (1923–2020)
Thue–Siegel–Dyson–Roth theorem Feynman diagram, also known as Dyson graphs Wigner–Yamase–Dyson conjecture Gordon Freeman, a fictional character named after
Freeman_Dyson
Physical model of solid metals as electron gases
qualitatively reproduce features of real metals such as screening, plasmons, Wigner crystallization and Friedel oscillations. At zero temperature, the properties
Jellium
Property of a thermodynamic system
is a thermodynamic state variable that quantifies the probabilistic distribution of accessible microstates in a system. The term and the concept are used
Entropy
Foundational principle in quantum physics
on a real star-square function. Given a Wigner function W ( x , p ) {\displaystyle W(x,p)} with star product ★ and a function f, the following is generally
Uncertainty_principle
Quantum mechanical phenomenon
The square of the absolute value of this wave function is directly related to the probability distribution of the particle positions, which describes the
Quantum_tunnelling
German-American mathematician and physicist (1908–1989)
34:829-45. 1964: "Note on Wigner’s theorem on symmetry operations". J. Math. Phys. 5:862-68. 1967: "On a Hilbert space of analytic functions and an associated
Valentine_Bargmann
1956 nuclear physics experiment on weak force parity conservation
Wolf Prize. The modern concept of parity was developed in 1927 when Eugene Wigner formalized the principle of the conservation of parity (P-conservation)
Wu_experiment
Short "burst" or "envelope" of restricted wave action that travels as a unit
whose features accelerate to the right, in accelerating parabolas. The Wigner function satisfies W ( x , p ; t ) = W ( x − B 3 t 2 , p − B 3 t ; 0 ) = 1 2
Wave_packet
Specific quantum state of a quantum harmonic oscillator
note in Glauber's paper that reads: "Uses of these states as generating functions for the n {\displaystyle n} -quantum states have, however, been made by
Coherent_state
Hungarian and American mathematician and physicist (1903–1957)
Neumann entered the Lutheran Fasori Evangélikus Gimnázium in 1914. Eugene Wigner was a year ahead of von Neumann at the school and soon became his friend
John_von_Neumann
WIGNER DISTRIBUTION-FUNCTION
WIGNER DISTRIBUTION-FUNCTION
Surname or Lastname
English, German, Danish, and Jewish (Ashkenazic)
English, German, Danish, and Jewish (Ashkenazic) : variant of Wild.Thomas Wilder is recorded as a freeman of Charlestown, MA, in 1640. He had numerous prominent descendents.
Female
English
English name derived from the season name, "winter." The word may derive from Proto-Indo-European *wind-, WINTER means "white."
Surname or Lastname
English (of Norman origin) and North German
English (of Norman origin) and North German : from a Germanic personal name composed of the elements war(in) ‘guard’ + heri, hari ‘army’. The name was introduced into England by the Normans in the form Warnier.English (of Norman origin) : reduced form of Warrener (see Warren 2).Irish (Cork) : Anglicization of Gaelic Ó Murnáin (see Murnane), found in medieval records as Iwarrynane, from a genitive or plural form of the name, in which m is lenited.The name Warner was brought from England to MA independently by several different bearers in the first half of the 17th century and subsequently. Andrew Warner came from England to Cambridge, MA, in or before 1632; William Warner was in Ipswich, MA, by 1637; and John Warner was one of the settlers in Hartford, CT, in 1635.
Boy/Male
Danish, Dutch, German
Wagon Driver; Wagon Maker
Surname or Lastname
English
English : from the Old English personal name WinegÄr, composed of the elements wine ‘friend’ + gÄr ‘spear’.German : habitational name from any of several places in Alsace (now part of France) named Wingen.Swedish : ornamental name from ving(e) ‘wing’ + the agentive suffix -er.
Male
English
 English surname transferred to forename use, derived from the German personal name Wilmar, WILMER means "desires fame."
Girl/Female
Arabic
Distributor
Girl/Female
American, Australian, British, Chinese, Christian, English, French, Latin, Swedish
Pure; Virgin; Plant whose Red Root is Used as a Spice; Pep; Liveliness; Ginger Plant; Spring-like; Flourishing
Boy/Male
Anglo, Australian, British, English, Jamaican
Year; Winter
Surname or Lastname
Jewish (Ashkenazic)
Jewish (Ashkenazic) : occupational name for a cantor in a synagogue, from Yiddish zinger ‘singer’.English : variant of Sanger 2, in fact a Middle English recoinage from the verb sing(en) ‘to sing’.German : variant of Sänger (see Sanger 1) in the sense of ‘poet’.Isaac Merrit Singer, inventor of the eponymous sewing machine, was born in 1811 in Pittstown, NY, the son of German immigrant Adam Reisinger. He had five wives and fathered 24 children. Singer, who incorporated his company as the Singer Manufacturing Company in 1864, left a fortune worth $13 million to his various heirs.
Female
English
English pet form of Latin Virginia, GINGER means "maiden, virgin." Sometimes also given as a spice name.
Girl/Female
American, Anglo, Australian, British, Christian, English, Jamaican
Season Name; Born in Winter; Winter; Snowy
Surname or Lastname
Scottish
Scottish : variant spelling of Biggar.English : occupational name for a builder, from Middle English bigger ‘(house) builder’, an agent derivative of bigge(n) ‘to build’ (from Old Norse byggja).
Male
English
English surname transferred to forename use, derived from the German personal name Werner, WARNER means "Warin warrior," i.e. "covered warrior."
Surname or Lastname
English
English : occupational name for a wagoner or carter, Middle English wayner, an agent derivative of Old English wæg(e)n, wæn ‘cart’.Variant of German Wagner in Slavic-speaking regions.German and Jewish (Ashkenazic) : variant of Weiner.
Surname or Lastname
English (Norfolk)
English (Norfolk) : unexplained.In some instances probably an Americanized form of German and Jewish Schwinger, or German Zwinger, a nickname from Middle High German zwinger ‘oppressor’.
Surname or Lastname
English
English : occupational name for a carter, from an agent derivative of Old English wagen ‘cart’, ‘wagon’.Americanized form of German Wagner.
Boy/Male
German
Wagon maker.
Boy/Male
Arabic, British, Islamic, Malaysian, Muslim, Pakistani, Tamil, Urdu
Distribution
Surname or Lastname
English (Norfolk)
English (Norfolk) : unexplained.Jewish (Ashkenazic) : variant of Wiener.
WIGNER DISTRIBUTION-FUNCTION
WIGNER DISTRIBUTION-FUNCTION
Boy/Male
American, Australian, British, Chinese, Christian, Danish, Dutch, English, French, German, Greek, Hebrew, Japanese, Norwegian, Swedish, Swiss, Ukrainian
The Lord is Gracious; God has Given; Gift of God; God is Gracious; Jehovah has been Gracious; Variant of John; Abbreviation of Jonathan
Girl/Female
Assamese, Indian
Brave Girl
Boy/Male
Afghan, Arabic, Gujarati, Hindu, Indian, Muslim
Prophet; Jesus; Presence; Dignity; Power
Boy/Male
Tamil
Boy/Male
Bengali, Indian
Nation of Love Lotus
Girl/Female
Hindu
Girl/Female
Christian, Hindu, Indian
Gem; Cloud
Boy/Male
Hindu
Name of one of the months
Boy/Male
Irish American Anglo Saxon English
Poet.
Boy/Male
Gujarati, Hindu, Indian, Kannada, Malayalam, Marathi, Punjabi, Sikh, Telugu
Lord Shiva
WIGNER DISTRIBUTION-FUNCTION
WIGNER DISTRIBUTION-FUNCTION
WIGNER DISTRIBUTION-FUNCTION
WIGNER DISTRIBUTION-FUNCTION
WIGNER DISTRIBUTION-FUNCTION
a.
Expressing separation; denoting a taking singly, not collectively; as, a distributive adjective or pronoun, such as each, either, every; a distributive numeral, as (Latin) bini (two by two).
a.
Following dinner; post-prandial; as, an after-dinner nap.
v. i.
To wither; to fail.
n.
Disposition; distribution; management.
v. i.
To make distribution.
v. i.
To act as a sinner.
n.
The act of distributing or dispensing; the act of dividing or apportioning among several or many; apportionment; as, the distribution of an estate among heirs or children.
adv.
By distribution; singly; not collectively; in a distributive manner.
n.
Distribution; dealing; apportionment.
n.
One who signs or subscribes his name; as, a memorial with a hundred signers.
n.
Distribution; apportionment.
n.
Distribution; division into shares.
a.
Indicating division or distribution.
a.
Of or pertaining to distribution.
n.
A distributive adjective or pronoun; also, a distributive numeral.
n.
A resolving a whole into its parts.
n.
That which is distributed.
n.
The steps or operations by which steam is supplied to and withdrawn from the cylinder at each stroke of the piston; viz., admission, suppression or cutting off, release or exhaust, and compression of exhaust steam prior to the next admission.
n.
Separation into parts or classes; arrangement of anything into parts; disposition; classification.
n.
The sorting of types and placing them in their proper boxes in the cases.