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Magnus expansion
A Pedagogical Approach to the Magnus Expansion
Applications in Solid-State Nuclear Magnetic Resonance and Physics
Improved High Order Integrators Based on the Magnus Expansion ∗†
Beyond the Cosmological Principle
RCMS: Right Correction Magnus Series Approach for Oscillatory Odes Ilan Degania,∗, Jeremy Schiffb
Introduction of the Floquet-Magnus Expansion in Solid-State Nuclear Magnetic Resonance Spectroscopy Eugène S
New Analytic Approximations Based on the Magnus Expansion
Magnus Expansions and Pseudospectra of Master Equations
Arxiv:1907.11638V2 [Physics.Comp-Ph] 12 Feb 2020
Theoretical Perspectives of Spin Dynamics in Solid-State Nuclear Magnetic Resonance and Physics
Magnus' Expansion As an Approximation Tool For
Continuous Changes of Variables and the Magnus Expansion
Thesis.Pdf (2.469Mb)
Arxiv:2003.02042V2 [Quant-Ph] 10 May 2020
Theories in Spin Dynamics of Solid-State Nuclear Magnetic Resonance Spectroscopy
Magnus Expansions and Pseudospectra of Master Equations
The Magnus Expansion
Time-Ordering and a Generalized Magnus Expansion
Top View
New Forms of Extended Kalman Filter Via Transversal Linearization And
Theoretical Perspectives of Spin Dynamics in Solid-State Nuclear Magnetic Resonance and Physics
Splitting Methods for Non-Autonomous Linear Systems
Magnus-Type Integrator for Non-Autonomous Spdes 4599
Arxiv:1809.02642V1 [Quant-Ph] 7 Sep 2018 .Begzjav T
Magnus Integrators on Multicore Cpus and Gpus
Physics Reports the Magnus Expansion and Some of Its Applications
The Physics of God and the Quantum Gravity Theory of Everything∗
On the Stochastic Magnus Expansion and Its Application to Spdes Arxiv
New Analytic Approximations Based on the Magnus Expansion
The Magnus Expansion
REVISITING the AETHER in SCIENCE Beverly Rubik, Ph.D
A New Explicit Magnus Expansion for Nonlinear Stochastic Differential Equations
Arxiv:2102.00793V2 [Cond-Mat.Str-El] 8 Feb 2021 Sort to Various Approximations
Applications of Modified Magnus Method for Highly Oscillatory Ordinary Differential Equations
Efficient Strong Integrators for Linear Stochastic Systems
The Magnus Expansion and Some of Its Applications
Magnus-Lanczos Methods with Simplified Commutators for the Schr
Continuous Changes of Variables and the Magnus
Does Not Give an Explicit Formula for the Function Ω(T) As in the Linear Case
Time-Ordering and a Generalized Magnus Expansion Michel Bauer, Raphael Chetrite, Kurusch Ebrahimi-Fard, Frédéric Patras
Post-Lie-Magnus Expansion and BCH-Recursion Mahdi Jasim Hasan Al-Kaabi, Kurusch Ebrahimi-Fard, Dominique Manchon
Future Theoretical Approaches in Nuclear Magnetic Resonance
The Magnus Expansion and Its Physical Applications
Explicit Magnus Expansions for Nonlinear Equations
Efficient and Reliable Simulation of Quantum Molecular Dynamics