Siirry päänavigointiin
Siirry hakuun
Siirry pääsisältöön
Tampereen yliopiston tutkimusportaali Etusivu
Tuki ja usein esitetyt kysymykset
English
Suomi
Etusivu
Profiilit
Tutkimustuotokset
Tutkimusyksiköt
Aktiviteetit
Tutkimusaineistot
Tutkimusinfrastruktuurit
Lehtileikkeet
Palkinnot
Haku asiantuntemuksen, nimen tai kytköksen perusteella
Real Time Path Integral Simulation Methods for Quantum Particles
Ilkka Ruokosenmäki
Fysiikka
Tutkimustuotos
:
Väitöskirja
›
Collection of Articles
Yleiskatsaus
Sormenjälki
Sormenjälki
Sukella tutkimusaiheisiin 'Real Time Path Integral Simulation Methods for Quantum Particles'. Ne muodostavat yhdessä ainutlaatuisen sormenjäljen.
Järjestys:
Painoarvo
Aakkosjärjestyksessä
Keyphrases
Simulation Method
100%
Quantum Particles
100%
Path Integral Simulation
100%
Real Time Path Integral
100%
Hooke's Atom
66%
Quantum Mechanics
66%
Eigenstates
66%
Diffusion Monte Carlo
66%
Path Integral
66%
Monte Carlo Simulation
33%
Electric
33%
Numerical Methods
33%
Strong Correlation
33%
Sampling Distribution
33%
Excited States
33%
Approximation Methods
33%
Monte Carlo Method
33%
Numerical Calculation
33%
Positive Samples
33%
Quantum Dynamics
33%
Path Integral Approach
33%
Feynman Path Integral
33%
Quantum Monte Carlo Method
33%
Wave Function
33%
Electronic Structure Calculations
33%
Many-body Effects
33%
Path Integral Method
33%
Walker
33%
Statistical Physics
33%
Welcome
33%
Plague
33%
Quantum System
33%
One-dimensional Harmonic Oscillator
33%
Classical Mechanics
33%
Path Integral Formalism
33%
Multidimensional Integrals
33%
Guided Sampling
33%
Quantum Many-particle System
33%
Integral Calculation
33%
Imaginary Time Method
33%
Quantum Many-body
33%
Non-relativistic Quantum Mechanics
33%
Engineering
Eigenvector
100%
Simulation Method
100%
Transients
50%
Time Domain
50%
One Dimensional
50%
Numerical Methods
50%
Energetics
50%
Numerical Calculation
50%
Integral Approach
50%
Structure Calculation
50%
Body Effect
50%
Diffusion Time
50%
Quantum System
50%
Path Integral Method
50%
Nature Works
50%
Electronic State
50%
Energy Levels
50%
Harmonics
50%
Oscillator
50%
Excited State
50%
Ground State
50%
Physics
Monte Carlo Method
100%
Quantum Theory
100%
Diffusion Monte Carlo
66%
Energetics
33%
Mathematical Method
33%
Monte Carlo
33%
Quantum Monte Carlo Methods
33%
Wave Function
33%
Excitation
33%
Statistical Physics
33%
Classical Mechanics
33%
Transients
33%
Ground State
33%
Energy Levels
33%
Harmonic Oscillator
33%
Chemistry
Path Integral
100%
Monte Carlo Method
42%
Quantum Theory
42%
Diffusion Monte Carlo
28%
Electronic State
14%
Excited State
14%
Ground State
14%
Quantum Monte Carlo Methods
14%
Energetics
14%
Quantum Dynamics
14%
Classical Mechanics
14%
Wave Function
14%
Harmonic Oscillator
14%