Theoretical Foundations of Ray Methods - NGEO097

• Title: Teoretické základy paprskových metod
• Guaranteed by: Department of Geophysics (32-KG)
• Faculty: Faculty of Mathematics and Physics
• Actual: from 2010
• Semester: summer
• E-Credits: 5
• Hours per week, examination: summer s.:2/1, C+Ex [HT]
• Capacity: unlimited
• Min. number of students: unlimited
• 4EU+: no
• Virtual mobility / capacity: no
• State of the course: taught
• Language: Czech, English
• Teaching methods: full-time
• Teaching methods: full-time
• Guarantor: RNDr. Luděk Klimeš, DrSc.

Annotation

English

Last update: T_KG (19.05.2010)

Comparison of ray methods and other methods.Ray theory for elastic media.Hamiltonian functions for elastic media. Theory of the solution of the Hamilton-Jacobi equation.Theory of travel-time perturbations.Transformation of the perturbation derivatives of travel time at an interface.Transformation of paraxial matrices at an interface. Transport equation. Reflection and transmission coefficients for amplitude at interface.Attenuation.Paraxial approximation and Gaussian beams and packets. Systems of rays and travel times.Green tensor.Ray-theory Green tensor.Seismic sources.Synthetic seismograms.

Czech

Last update: T_KG (19.05.2010)

Viskoelastodynamické rovnice.Srovnání paprskových metod s ostatními metodami. Paprsková teorie pro elastická prostředí. Hamiltoniany pro elastická prostředí.Teorie řešení Hamilton-Jacobiho rovnice. Poruchová teorie pro čas siření. Transformace prostorových a poruchových derivaci časů šíření na rozhraní. Transformace paraxiálních matic na rozhraní.Transportní rovnice. Koeficienty odrazu a lomu pro amplitudy na rozhraní. Útlum.Paraxiální aproximace a Gaussovské svazky a balíky. Systémy paprsku a výpočet časů síření. Greenuv tensor.Paprskový Greenův tensor.Seismické zdroje. Syntetické seismogramy

Aim of the course

English

Last update: T_KG (19.05.2010)

Theoretical elements of ray methods.

Theory of the solution of the Hamilton-Jacobi equation.

Application of ray methods to 3-D heterogeneous, viscoelastic,

generally anisotropic media.

Czech

Last update: T_KG (19.05.2010)

Teoretické základy paprskových metod.

Teorie řešení Hamilton-Jacobiho rovnice.

Použití paprskových metod v třírozměrném nehomogenním viskoelastickém obecně anizotropním prostředí.

Course completion requirements

Last update: prof. RNDr. František Gallovič, Ph.D. (06.10.2017)

Podmínkou udělení zápočtu je aktivní účast na cvičeních.

Povaha kontroly studia předmětu vylučuje opravné termíny zápočtu.

Získání zápočtu je podmínkou pro konání zkoušky.

Literature

Last update: T_KG (19.05.2010)

Červený, V.: Seismic Ray Theory. Cambridge Univ. Press, Cambridge, 2001.

Requirements to the exam

Last update: prof. RNDr. František Gallovič, Ph.D. (06.10.2017)

Zkouška je ústní, požadavky odpovídají sylabu v rozsahu prezentovaném na přednášce.

Syllabus

English

Last update: T_KG (19.05.2010)

Viscoelastodynamic equations:

Linear constitutive equations for viscoelastic media, relaxation functions.

Anisotropic viscoelastodynamic equation in the time domain.

Anisotropic viscoelastodynamic equation in the frequency domain.

Isotropic viscoelastic medium.

Dispersion and attenuation.

Comparison of ray methods and other methods.

Ray theory for elastic media:

Standard ray series.

Christoffel equation.

Polarisation.

Eikonal equation.

Transport equation.

Polarisation of S waves in isotropic media.

Coupling ray theory for S waves.

Examples of synthetic seismograms in weakly anisotropic media.

Hamiltonian functions for elastic media:

Isotropic elastic medium.

Anisotropic elastic medium.

Phase-space derivatives of the eigenvalues of the Christoffel matrix.

Theory of the solution of the Hamilton-Jacobi equation:

Difference between the viscosity solution and the Hamiltonian solution.

Geometrical interpretation.

Phase-space derivatives.

Hamilton's equations of rays.

Ray coordinates.

Hamiltonian equations of geodesic deviation.

Propagator matrix of geodesic deviation.

Second-order derivatives of travel time.

Theory of travel-time perturbations:

Perturbation parameters and perturbation Hamiltonian function.

Perturbation derivatives.

Perturbation expansion of travel time.

Linear perturbation Hamiltonian function.

Equations for the third-order and higher-order spatial derivatives

and for the perturbation derivatives of travel time.

Transformation of the spatial and perturbation derivatives

of travel time at an interface:

Travel time at a smooth interface.

Transformation of the first-order derivatives of travel time.

Transformation of the second-order derivatives of travel time.

Transformation of paraxial matrices at an interface:

Transformation of the matrix Q of geometrical spreading

at an interface.

Transformation of the matrix P of paraxial slowness vectors

at an interface.

Transformation of both paraxial matrices at an interface.

Transformation of the propagator matrix of geodesic deviation at an interface.

Transformation of the non-eikonal paraxial vector at an interface.

Transport equation:

Solution of the transport equation.

Phase shift due to caustics.

Examples of phase shifts.

Reflection and transmission coefficients

for the amplitude at an interface.

Attenuation:

Complex-valued Hamiltonian function.

Reference Hamiltonian function.

Perturbation Hamiltonian function.

Reference rays.

Reference travel time.

Hamiltonian equations of geodesic deviation.

First-order perturbation derivative of travel time.

First-order perturbation derivative of travel-time gradient.

Second-order perturbation derivative of travel time.

Paraxial approximation and Gaussian beams and packets:

Paraxial approximation.

Gaussian beams.

Gaussian packets.

Summation of Gaussian beams.

Summation of Gaussian packets.

Systems of rays and calculation of travel times:

Ray parameters and the continuity of multi-valued travel time.

Velocity model.

Smooth velocity model.

Block velocity model.

Elementary waves.

Ray histories.

Controlled initial-value ray tracing.

Two-point ray tracing.

Other applications of controlled initial-value ray tracing.

Wavefront tracing.

Interpolation within ray cells.

Green tensor:

Representation theorem.

Born approximation.

Born correction of an approximate wavefield.

Ray-theory Green tensor:

Paraxial matrices for the amplitude of the ray-theory Green tensor.

Ray-theory Green tensor in a homogeneous medium.

Elementary ray-theory Green tensor in a heterogeneous medium.

Seismic sources.

Synthetic seismograms.

Czech

Last update: T_KG (19.05.2010)

Viskoelastodynamicke rovnice:

Linearni konstitutivni rovnice pro viskoelasticka prostredi, relaxacni funkce.

Anizotropni viskoelastodynamicka rovnice v casove oblasti.

Anizotropni viskoelastodynamicka rovnice ve frekvencni oblasti.

Izotropni viskoelasticke prostredi.

Disperze a utlum.

Srovnani paprskovych metod s ostatnimi metodami.

Paprskova teorie pro elasticka prostredi:

Standardni paprskove rady.

Christoffelova rovnice.

Polarizace.

Rovnice eikonalu.

Transportni rovnice.

Polarizace S vln v izotropnim prostredi.

Spojovaci paprskova teorie pro S vlny.

Priklady syntetickych seismogramu v slabe anizotropnim prostredi.

Hamiltoniany pro elasticka prostredi:

Izotropni elasticke prostredi.

Anizotropni elasticke prostredi.

Derivace vlastnich cisel Christoffelovy matice ve fazovem prostoru.

Teorie reseni Hamilton-Jacobiho rovnice:

Rozdil mezi viskozitnim resenim a Hamiltonovskym resenim.

Geometricka interpretace.

Derivace ve fazovem prostoru.

Hamiltonovy rovnice pro paprsky.

Paprskove souradnice.

Hamiltonovske rovnice geodeticke deviace.

Propagatorova matice geodeticke deviace.

Druhe derivace casu sireni.

Poruchova teorie pro cas sireni:

Poruchove parametry a poruchovy Hamiltonian.

Poruchove derivace.

Poruchovy rozvoj casu sireni.

Linearni poruchovy Hamiltonian.

Rovnice pro treti a vyssi prostorove derivace

a pro poruchove derivace casu sireni.

Transformace prostorovych a poruchovych derivaci

casu sireni na rozhrani:

Cas sireni na hladkem rozhrani.

Transformace prvnich derivaci casu sireni.

Transformace druhych derivaci casu sireni.

Transformace paraxialnich matic na rozhrani:

Transformace matice Q geometrickeho rozsirovani na rozhrani.

Transformace matice P paraxialnich vektoru pomalosti na rozhrani.

Transformace obou paraxialnich matic na rozhrani.

Transformace propagatorove matice geodeticke deviace na rozhrani.

Transformace neeikonaloveho paraxialniho vektoru na rozhrani.

Transportni rovnice:

Reseni transportni rovnice.

Fazovy posun zpusobeny kaustikami.

Priklady fazovych pousunu.

Koeficienty odrazu a lomu pro amplitudy na rozhrani.

Utlum:

Komplexni Hamiltonian.

Referencni Hamiltonian.

Poruchovy Hamiltonian.

Referencni paprsky.

Referencni cas sireni.

Hamiltonovske rovnice geodeticke deviace.

Prvni poruchove derivace casu sireni.

Prvni poruchove derivace gradientu casu sireni.

Druhe poruchove derivace casu sireni.

Paraxialni aproximace a Gaussovske svazky a baliky:

Paraxialni aproximace.

Gaussovske svazky.

Gaussovske baliky.

Sumace Gaussovskych svazku.

Sumace Gaussovskych baliku.

Systemy paprsku a vypocet casu sireni:

Paprskove parametry a spojitost viceznacneho casu sireni.

Rychlostni model.

Hladky rychlostni model.

Blokovy rychlostni model.

Elementarni vlny.

Paprskove historie.

Rizene strileni paprsku.

Vypocet dvoubodovych paprsku.

Jina vyuziti rizeneho strileni paprsku.

Metoda sledovani vlnoploch.

Interpolace v paprskovych bunkach.

Greenuv tensor:

Reprezentacni teorem.

Bornova approximace.

Bornova oprava priblizneho vlnoveho pole.

Paprskovy Greenuv tensor:

Paraxialni matice pro vypocet amplitudy paprskoveho Greenova tensoru.

Paprskovy Greenuv tensor v homogennim prostredi.

Elementarni paprskovy Greenuv tensor v nehomogennim prostredi.

Seismicke zdroje.

Syntheticke seismogramy.