Abstract
Optical rogue waves are a class of pulses with extremely large amplitudes, whose probability of occurrence unexpectedly deviates from Gaussian-law statistics. To date, the mechanisms of rogue wave generation are still debated: investigations are under way, exploring the statistics of various pulse dimensions across different physical domains. Although polarization is one of the fundamental parameters of optical rogue waves, its statistics have received little attention until recently. Here, we review recent process of the polarization-dependent properties of optical rogue waves in ultrafast optics. Based on a two-dimensional statistical model, we introduce the concept of optical polarization rogue waves. Specifically, we consider the frequency of generation of waves with freak or rogue state of polarization, with a probability of occurrence deviating from a normal distribution. We demonstrate three nonlinear optical laser systems: a partially mode-locked laser, a dissipative soliton laser, and supercontinuum generation within a highly nonlinear fiber. Further, we identify optical polarization rogue waves in nonlinear laser systems, and discuss their generation mechanisms. Related results reveal that optical polarization rogue waves are embedded in optical systems with a deteriorated degree of coherence, which originates from vector four-wave-mixing processes. Polarization-dependent investigations will provide additional insight for our understanding of optical rogue waves.
Highlights
Optical rogue waves are a class of pulses with extremely large amplitudes, whose probability of occurrence unexpectedly deviates from Gaussian-law statistics
Experimental setup The fiber cavity shown in figure 2.1(a) contains an erbium-doped fiber (EDF) pumped by two continuous wave (CW) lasers through two wavelength division multiplexer (WDM), single-mode fiber (SMF), dispersion compensating fiber (DCF), a polarization independent optical isolator (ISO), a polarization controller (PC), an optical coupler (OC), and a saturable absorber (SA) fabricated by filling reduced graphene oxide flakes into cladding holes of a photonic crystal fiber (PCF), to provide enough nonlinear phase for mode-locking [101, 102]
The supercontinuum is rather flat after the erbium-doped fiber amplifier (EDFA): the 3 dB flatness in the blue side can be larger than 350 nm
Summary
Rogue waves The concept of rogue waves (RWs) originates from oceanography. They are known as water waves with extremely large amplitude propagating in open oceans. These rare events emerge with unexpectedly large probabilities, which deviate from the power law wave amplitude statistics, and they leave without a trace [1–9]. These events lead to water waves as high as 30 m, which impose a great threat to ships and ocean liners, and even cause devastating damages. Some secrets behind RWs have been unveiled in recent groundbreaking research
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