图 1  基态类亮孤子波形和功率图　(a) $ \beta_{1} = \beta_{2} = -1 $, $ b = -0.4 $, d分别为0.2, 3.0和7.0时对应的波形; (b) $ \beta_{1} = \beta_{2} = -1 $, $ d = 0.2 $, b分别为–1.0, –2.5和–5.0时对应的波形; (c) $ b = -0.4 $, $ d = 0.2 $, $ \beta_{1} = -1 $, 不同$ \beta_{2} $对应的波形($ \beta_{2} $ = –2, –4和–8); (d)当$ \beta_{1} = \beta_{2} = -1 $, $ d = 0.5 $时, 不同传播常数情况下, 功率与耦合函数宽度的关系; (e)当$ \beta_{1} = \beta_{2} = -1 $, $ b = -0.5 $时, 不同非局域程度情况下, 功率与耦合函数宽度的关系

Fig. 1.  Waveform and power diagram of ground state bright-like soliton: (a) Corresponding waveform of $ \beta_{1} = \beta_{2} = -1 $, $ b = -0.4 $, d selected as 0.2, 3.0 and 7.0, respectively; (b) corresponding waveform of $ \beta_{1} = \beta_{2} = -1 $, $ d = 0.2 $, b selected as –1.0, –2.5 and –5.0, respectively; (c) waveform corresponds to different $ \beta_{2} $ when b = – 0.4, d = 0.2, $ \beta_{1} = -1 $($ \beta_{2} $ selected as –2, –4 and –8, respectively); (d) when $ \beta_{1} = \beta_{2} = -1 $, $ d = 0.5 $, the relationship between the power and coupling function width under different propagation constant; (e) when $ \beta_{1} = \beta_{2} = -1 $, $ b = -0.5 $, the relation between the power and coupling function width under different nonlocal degree

图 2  两极类亮孤子的强度分布和传输特性　(a)当$ d = 0.2 $, $ H = 1 $, $ \omega $分别为$ 0.1 $, $ 0.05 $, $ 0.01 $时, 两极类亮孤子的强度分布图; (b)当$ b = -1.1 $, $ \omega = 0.1 $, $ H = 1 $, d分别为$ 0.2 $, $ 2 $, $ 8 $时, 两极类亮孤子的强度分布图; (c)对应图(b)中$ d = 2 $时, $ U_{1} $的加噪传输图; (d)$ d = 0.2 $, $ b = -1.1 $, $ \omega = 0.1 $, $ H = 3 $时, 孤子分子的强度分布图

Fig. 2.  Intensity distribution and propagation properties of bipolar bright-like solitons: (a) When $ d = 0.2 $, $ H = 1 $, $ \omega $ is $ 0.1 $, $ 0.05 $, $ 0.01 $, respectively, intensity distribution of bipolar bright-like solitons; (b) when $ b = -1.1 $, $ H = 1 $, $ \omega = 0.1 $, d is $ 0.2 $, $ 2 $, $ 8 $, respectively, intensity distribution of bipolar bright-like solitons when the degree of nonlocality; (c) corresponding to the white noise propagation graph of $ U_{1} $ when $ d = 2 $ in panel (b); (d) intensity distribution of soliton molecule when $ d = 0.2 $, $ b = -1.1 $, $ \omega = 0.1 $, $ H = 3 $

图 3  非对称峰值的两极类亮孤子的强度分布和传输特性　(a)耦合模式相同时, 非对称峰值的两极类亮孤子的强度分布图; (b) 图(a)孤子解$ U_{2} $的加噪传输图; (c) 图(a)孤子解的稳定性图谱; (d)耦合模式不同时, 非对称峰值两极类亮孤子的强度分布图; (e)图(d)孤子解$ U_{1} $的加噪传输图; (f)图(d)孤子解的稳定性图谱

Fig. 3.  Intensity distribution and propagation properties of bipolar bright-like solitons with asymmetric peaks: (a) Intensity profiles of bipolar bright-like solitons with asymmetric peaks with the same coupling mode; (b) propagation of soliton solution $ U_{1} $ with the white noise in panel (a); (c) stability spectra of soliton solutions in panel (a); (d) intensity distribution of bipolar bright-like soliton with different patterns of asymmetric peaks with different coupling modes; (e) propagation of soliton solution $ U_{1} $ with the white noise in panel (d); (f) stability spectra of soliton solutions in panel (d)

图 4  不同类型的三极类亮孤子的强度分布和传输特性　(a) $ \beta_{1} = \beta_{2} = -1 $, $ b = -1.1 $, $ d = 0.2 $, $ \alpha_{1} = 2 $, $ \alpha_{2} = 1 $, $ H = 1 $, $ \omega = 0.1 $时, 三极类亮孤子的强度分布图; (b) 图(a)孤子解$ U_{1} $的加噪传输图; (c) $ \beta_{1} = -1 $, $ \beta_{2} = -2 $, $ \alpha_{1} = 15 $, $ \alpha_{2} = 9 $, $ \omega = 0.8 $, $ d = 1.5 $, $ b = -0.5 $时, 孤子峰值不同的三极类亮孤子的强度分布图; (d) 图(c)孤子解$ U_{1} $的加噪传输图; (e)耦合模式不同时, 非对称峰值三极类亮孤子的强度分布图; (f) 图(e)孤子解$ U_{2} $的加噪传输图

Fig. 4.  Intensity distribution and propagation characteristics of three-pole bright-like solitons with different types: (a) Intensity distribution of three-pole bright-like solitons when $ \beta_{1} = \beta_{2} = -1 $, $ b = -1.1 $, $ d = 0.2 $, $ \alpha_{1} = 2 $, $ \alpha_{2} = 1 $, $ H = 1 $, $ \omega = 0.1 $; (b) propagation diagram of soliton solution $ U_{1} $ with the white noise in panel (a); (c) intensity distribution of three-pole bright-like solitons with different soliton peaks when $ \beta_{1} = -1 $, $ \beta_{2} = -2 $, $ \alpha_{1} = 15 $, $ \alpha_{2} = 9 $, $ \omega = 0.8 $, $ d = 1.5 $, $ b = -0.5 $; (d) propagation diagram of soliton solution $ U_{2} $ with the white noise in panel (c); (e) intensity distribution of the asymmetric peak three-pole bright-like solitons with different coupling modes; (f) propagation diagram of soliton solution $ U_{2} $ with the white noise in panel (e)

图 5  平顶孤子、单极灰孤子、两极灰孤子的强度分布和传输特性　(a)当$ \omega = 0.8 $, $ d = 1 $, $ b = -0.5 $时, 平顶孤子的强度分布图; (b)图(a)孤子解$ U_{2} $的加噪传输图; (c)当$ \omega = 0.05 $时, 单极灰孤子的强度分布图; (d)图(c)孤子解$ U_{1} $的加噪传输图; (e) $ \omega = 0.05 $, $ d = 1 $, $ b = -0.4 $时, 两极灰孤子的强度分布图; (f)图(e)孤子解$ U_{1} $的加噪传输图

Fig. 5.  Intensity distribution and propagation properties of flat-topped soliton, unipolar grey soliton and bipolar grey solitons; (a) Intensity distribution of flat-topped soliton when $ \omega = 0.8 $, $ d = 1 $, $ b = -0.5 $; (b) propagation of soliton solution $ U_{2} $ with the white noise in panel (a); (c) intensity distribution of unipolar gray soliton when $ \omega = 0.05 $; (d) propagation of soliton solution $ U_{1} $ with the white noise in panel (c); (e) intensity distribution of bipolar gray solitons when $ \omega = 0.05 $, $ d = 1 $, $ b = -0.4 $; (f) propagation of soliton solution $ U_{1} $ with the white noise in panel (e)

图 6  三极灰孤子的强度分布和传输特性　(a)当$ H = 4 $时, 三极灰孤子的强度分布图; (b)图(a)孤子解$ U_{1} $的加噪传输图; (c)当$ H = 7 $时, 孤子分子的强度分布图; (d)图(c)孤子解$ U_{1} $的加噪传输图

Fig. 6.  Intensity distribution and propagation characteristics of tripolar grey solitons: (a) Intensity distribution of tripolar grey solitons when $ H = 4 $; (b) propagation of soliton solution $ U_{1} $ with the white noise in panel (a); (c) intensity distribution of soliton molecule when $ H = 7 $; (d) propagation of soliton solution $ U_{1} $ with the white noise in panel (c)