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Theory and numerical simulation of nth-order cascaded Raman fiber lasers
Stuart D. Jackson
*
, Paul H. Muir
*
Corresponding author for this work
Research output
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Contribution to journal
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Article
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peer-review
57
Citations (Scopus)
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Mathematics
Fiber Laser
100%
Raman
77%
Numerical Simulation
38%
Pump
32%
Boundary Value
24%
Stimulated Raman Scattering
23%
Ordinary differential equation
19%
First-order
17%
Implicit Runge-Kutta Methods
16%
Coupled Oscillators
16%
Method of Lines
16%
Time Dependence
15%
Theoretical Model
15%
Nonlinear Oscillator
15%
Modulation
15%
Hyperbolic Partial Differential Equations
15%
Cavity
13%
Stokes
13%
Defects
12%
Transverse
12%
Reverse
12%
Finite Difference Scheme
12%
Propagation
11%
System of equations
11%
Vary
10%
Influence
9%
Partial differential equation
9%
Boundary conditions
8%
Derivative
7%
Framework
7%
Model
4%
Physics & Astronomy
Raman lasers
61%
fiber lasers
45%
partial differential equations
33%
differential equations
27%
pumps
24%
Runge-Kutta method
21%
simulation
19%
time dependence
16%
Raman spectra
13%
oscillators
12%
boundary conditions
12%
modulation
11%
cavities
10%
propagation
10%
defects
9%