个人信息
个人简介

       赵承良,博士、教授、苏州大学物理科学与技术学院副院长、江苏省高校“青蓝工程”优秀青年骨干教师、江苏省“双创博士”计划入选者、荷兰代尔夫特理工大学访问学者;曾分别在教育部科技司和苏州高新区挂职,并连续两年被江苏省委组织部评为优秀科技镇长团成员。

       主要从事光场调控、相干光学、光镊和衍射成像等方面的研究,在Nanophotonics、Optics Letters、Applied Physics Letters、Optics Express等本学科领域期刊上发表SCI论文70余篇,授权国家发明专利4项;主持国家自然科学基金面上项目2项、青年基金项目1项、江苏省高校自然科学基金项目1项;参与国家自然科学基金重点研究计划、教育部科学技术研究重点项目等国家级省级项目6项;联合培养和指导博士研究生和硕士研究生10人。


         浙江省自然科学学术奖三等奖、苏州市自然科学论文优秀学术论文二等奖1次和三等奖2次、江苏省第八届基础物理教师上好一堂课竞赛二等奖、江苏省高校第九届和第十一届大学生物理及实验科技作品创新竞赛优秀指导教师、苏州大学“主要通识课程十佳教师”、苏州大学第十届青年教师课堂教学竞赛一等奖和苏州大学交通银行教学奖。


         指导的学生获2013年江苏省普通高校本专科优秀毕业设计(论文)一等奖1次、江苏省高校第九届和第十一届大学生物理及实验科技作品创新竞赛一等奖和二等奖各1次、国家级大学生创新性实验计划项目1项。



         发表论文(谷歌学术):https://scholar.google.com/citations?user=hbs7R4wAAAAJ&hl=zh-CN


研究领域

1. Generation the New Special Laser Beams:

Theoreticaland experimental study about the generation of the dark hollow beam, radiallyand azimuthally polarized beam, Airy beam, electromagnetic beam.


Opt. Letts.33, 1389-1391 (2008),   Opt. Lett.38,5418-5421 (2013)

2. Vortex Beam and Determine the Topological Charge

Theoretical and experimental study about the generation of the vortex beam,determine the topological charge of the coherent and partially coherent laserbeam.

Appl. Phys. Lett. 101, 261104 (2012)

3. Partially Coherent with Special Correlation Functions

Focused on partially coherent laser beam with multi-Gaussian correlated,Laguerre-Gaussian correlated, cosine-Gaussian-correlated functions and othercorrelation functions. Study the affect caused by the spatial coherence.

Phys. Rev. A89, 013801(2014)


4. Radiation Force and Optical Tweezers

The theoretical study about the radiation force on the Rayleigh particle caused by the highly focused special laser beam. Built the setup of the optical tweezer.

 Opt. Express17, 1753 (2009), Opt. Express89, 21472 (2009)


基本信息
头像




赵承良

职称:   教授

院部/部门:   物理科学与技术学院

学历:   博士

学位:   博士研究生

毕业学校:   浙江大学

毕业专业:  

联系方式

通讯地址:   江苏省苏州市十梓街1号苏州大学物理科学与技术学院

邮政编码:   215006

电子邮箱:   zhaochengliang@suda.edu.cn

联系电话:   65228893

传真号码:  

办公地点:   物理科技楼103室

科学研究

1、审稿:

担任Optics Letters、Optics Express、Journal of Optical Society of America A&B、Applied Physics B: Lasers and Optics、Applied Optics、Optics Communications、Physics Letters A、Journal of Modern Optics、Optics & Laser Technology、Chinese Physics、Chinese Optics Letters、Optica Applicata、中国激光、激光与光电子进展等国内外10余个国际权威杂志审稿人。

2、研究方向:

激光光束变换的理论和实验研究、激光与微粒的相互作用以及光镊的理论和实验研究、部分相干光的理论和实验研究、光学成像、新型空心光束以及涡旋光束的研究、矢量光束的产生及激光光刻中的应用、污染物颗粒的尺寸探测及光谱分析

3、承担各级(纵、横向)项目情况:

3.1、纵向

1. 主持国家自然科学基金-面上项目《具有涡旋位相的部分相干矢量光束的产生、传输及应用基础研究》(11374222),2014-2017
2. 主持国家自然科学基金-青年基金《特种激光光镊装置的光源部分的理论和实验研究》(61008009),2011-2013
3. 主持江苏省省属高校自然科学研究项目《特种激光束在特种光镊中的理论和实验研究》(10KJB140011),2011-2013
4. 参与国家自然科学基金-面上项目《基于玻璃基底列阵波导的多光束操控微粒的研究》(10974177)

5. 参与教育部科学技术研究重点项目《部分相干激光束的整形及应用研究》(210081)

3.2、横向:

1. 主持《激光焊接在汽车底盘加工中的应用设计的技术指导》,2013-2014
2. 主持《矢量光束时空调控及其在激光直写光刻系统中的应用》,2014-2016
3. 主持《核磁共振光谱应用于有机食品真伪检测的应用》,2014-2016

4. 主持《激光技术在烟气排放实时检测中的应用研究》,2014-2016

3.3、教改:

1. 主持教改项目《基础学科拔尖创新人才培养的研究与实践》(5731501713),2013-2015

  

4、科技成果(专利、获奖、论文等)情况:

4.1、专利:

发明专利

1. 陆璇辉,赵承良,陈和,一种用激光束或空心光束来运输和定向移动微粒和细胞的微操控方法及装置,ZL200710164740.9(已授权)
2. 董元,赵承良,文伟,蔡阳健,一种产生径向或角向偏振自聚焦艾里光束的方法及其装置, ZL201310018938.1(已授权)
3. 赵承良,董元,刘琳,王飞,蔡阳健,一种测量部分相干涡旋光束拓朴荷数的方法,ZL201210481551.5(已授权)
4. 赵承良,董元,文伟,蔡阳健,一种产生部分相干艾里光束的方法,ZL201310018920.1(已授权)
5. 赵承良,赵陈晨,董元,卢兴园,蔡阳健,一种产生异常空心光束的方法及其装置,2014102600382(已实审)
6. 赵承良,董元,赵陈晨,蔡阳健,一种完美拉盖尔-高斯光束的产生方法及其装置,2014101446749(已实审)

实用新型专利

1. 赵承良,董元,刘琳,王飞,蔡阳健,一种部分相干涡旋光束的测量装置,ZL201220626505.5(已授权)
2. 董元,赵承良,文伟,蔡阳健,一种产生径向或角向偏振自聚焦艾里光束的装置,ZL201320027094.2(已授权)
3. 赵承良,文伟,董元,蔡阳健,一种部分相干艾里光束的产生装置,ZL201320027095.7(已授权)
4. 董元,赵承良,赵陈晨,蔡阳健,一种产生完美拉盖尔-高斯光束的装置,ZL201420174839.2(已授权)
5. 赵陈晨,赵承良,董元,卢兴园,蔡阳健,一种产生异常空心光束的装置,ZL201420311799.1(已授权)


科研团队

所属国家杰出青年基金获得者、苏州大学特聘教授、博士生导师蔡阳健教授课题组
本课题现有:
授:蔡阳健
副教授:王飞、赵承良
师:刘琳
博士生、硕士生共计15人

论文
  • 1、Elliptical Laguerre-Gaussian correlated Schell-model beam,OPTICS EXPRESS,SCIE,EI,2014,赵承良

Updated 2019.02.18

2019

68. X. Lu, Y. Shao, C Zhao*, S. Konijnenberg, X. Zhu, Y.Tang, Y Cai, H. Urbach, Noniterative spatially partially coherent diffractiveimaging using pinhole array mask. Adv. Photon. 1 (1),016005 (2019).

67. X. Peng, X. Lu, X. Liu, C.Zhao, R. Lin, L. Liu and Y. Cai, Generation and propagation of aHermite-Gaussian Correlated Schell-Model LGol Beam, Appl. Sciences9(3), 610 (2019)

2018

66. M Dong, X Lu, C Zhao*, Y Cai, Y Yang, Measuring topological charge ofpartially coherent elegant Laguerre-Gaussian beam. Opt. Express26 (21),33035-33043 (2018).
65. J Zeng, X Liu, F Wang, CZhao*, Y Cai*, Partially coherent fractional vortex beam. Opt.Express26 (21), 26830-26844 (2018).

64. X Zhu, K Wang, F Wang, C Zhao*, Y Cai Coupling Efficiency of aPartially Coherent Radially Polarized Vortex Beam into a Single-ModeFiber. Appl. Sciences8 (8), 1313, (2018).

63. AP Konijnenberg*, X Lu, L Liu, WMJ Coene, C Zhao*, HP Urbach,Non-iterative method for phase retrieval and coherence characterization byfocus variation using a fixed star-shaped mask. Opt. Express26 (7),9332-9343 (2018)

62.Y Yang, X Zhu, J Zeng, X Lu, C Zhao*, Y Cai*, Anomalous Besselvortex beam: modulating orbital angular momentum with propagation. Nanophotonics7 (3),677-682 (2018).

61.Y Shao, X Lu, S Konijnenberg, C Zhao*, Y Cai, HP Urbach,Spatial coherence measurement and partially coherent diffractive imaging usingself-referencing holography. Opt. Express26 (4),4479-4490 (2018).

2017

60. X Zhu, X Lu, K Wang, C Zhao*, BJ Hoenders, Y Cai, Nonparaxialpropagationproperties of an anomalous hollow beam with orbital angularmomentum. J.Mod. Opt64 (19), 1960-1970 (2017).

59. X Liu, X Peng,L Liu, G Wu, C Zhao*, F Wang, Y Cai*, Self-reconstructionofthe degree of coherence of a partially coherent vortex beam obstructed by anopaqueobstacle. Appl. Phys. Lett110 (18),181104 (2017).

58. C Liang, C Mi, F Wang, C Zhao*, Y Cai*, SA Ponomarenko,Vector opticalcoherence lattices generating controllable far-field beamprofiles. Opt.Express25 (9),9872-9885 (2017).

57. X Liu, T Wu, L Liu, C Zhao, Y Cai, Experimental determination of theazimuthal and radial mode orders of apartially coherent LGpl beam. Chin.Opt. Lett15 (3), 030002 (2017).

2016

56. X. Lu, Y. Shen, X. Zhu, C. Zhao, Y. Cai, Evolutionproperties ofmulti-GaussianSchell model beams propagating in uniaxial crystal orthogonal tothe opticalaxis. Opt. Appl46, 19-34 (2016).

55. X. Lu, X. Zhu, K.Wang, C. Zhao*, Y.J. Cai, Effect of biological tissuesonthe propagation properties of anomalous hollow beams. Optik 127,1842-1847(2016).

2015

54. L. Liu, F. Wang, L. Liu, C. Zhao, Y. Cai, Generation and propagation ofanelectromagnetic Gaussian Schell-model vortex beam. J. Opt. Soc.Am.A32(11),2058-2065 (2015).

53. K. Wang, C.Zhao*,Nonparaxial propagation of a vectorial a pertureoff-axisanomalous hollowbeam. Opt. Commun334, 280-286(2015).

52. C.C. Zhao,X.Wang, C.L. Zhao*, K. Wang, Y. Cai, Statistical propertiesofan anomalous hollow beam with orbital angular momentum, J. Mod. Opt.(3),179-185(2015).

2014

51. Y. Chen, L. Liu,F. Wang, C. Zhao, Y. Cai, EllipticalLaguerre-Gaussiancorrelated Schell-model beam, Opt. Express22,13975-13987(2014).

50. Y. Chen, F. Wang, C. Zhao, Y. Cai, Experimental demonstration ofaLaguerre-Gaussian correlated Schell-model vortex beam, Opt. Express22,5826-5838(2014).

49. Y. Chen, F. Wang, L. Liu,C. Zhao, Y. Cai, O. Korotkova, Generationandpropagation of a partially coherent vector beam with specialcorrelationfunctions, Phys. Rev. A, 89, 013801(2014).

48. Y. Yang,Y. Dong, C. Zhao, Y. Liu, Y. Cai, Autocorrelationpropertiesof fully coherent beam with and without orbital angularmomentum, Opt.Express,22, 2925-2932(2014).

47. F. Wang, C. Zhao,Y. Dong, Y. Dong, Y. Cai, Generation and tight-focusing propertiesof cylindricalvector circular Airy beams, Appl.  Phys. B117,905-913,(2014).

46. Y. Zhang, L. Liu, C.Zhao, Y. Cai, Multi-Gaussian Schell-model vortexbeam, Phys.Lett. A378,750-754, (2014).

45. C. Liang, C.C.Zhao, C.L. Zhao*, K. Wang, Y. Cai, Degree of polarizationofa tightly focused, partially coherent anomalous hollow beam, J.Opt.Soc. Am. A31, 2753-2758(2014).

44. Y. Shen,L. Liu, C. Zhao, Y. Yuan, Y. Cai, Second-order moments ofanelectromagnetic Gaussian Schell-model beam in a uniaxial crystal, JOptSoc Am A,31, 238-245(2014).

43. W. Wen, X.Lu, C. Zhao*, Y. Cai, Propagation of Airy beam passingthrough the misalignedoptical system with hard aperture, Opt. Commun313,350–355(2014).

42. X. Wang, X.Lu,C.C.Zhao, K. Wang, C. Zhao*, Y. Cai, Propagationpropertiesof partially coherent anomalous hollow beams in uniaxialcrystals, J.Mod. Opt61, 688-696(2014).

41. K. Wang, C.Zhao*,Propagation properties of a radial phased-locked partiallycoherent anomaloushollow beam array in turbulent atmosphere, Opt.& Laser Tech57,44-51 (2014).

2013

40. Y. Yuan, S.Du,Y.Dong, C. Zhao, Y. Cai, Nonparaxial propagationproperties ofa vector partially coherent dark hollow beam, J Opt.Soc. Am A30,1358-1372(2013).

39. Y.Yuan,Y.Dong, C. Zhao*, Y. Cai, Generation and propagation ofananomalous vortex beam, Opt. Lett38,5418-5421(2013).

38. S. Zhu, C.Zhao,Y. Chen, Y. Cai, Experimental generation of a polychromaticpartially coherentdark hollow beam, Optik124,5271– 5273 (2013).

2012

37. C.Zhao,F. Wang, Y. Dong, Y.Han, Y. Cai, Effect of spatial coherence ondetermining thetopological charge of a vortex beam, Appl. Phys.Lett.101,261104(2012).

36. C.Zhao,Y. Dong, Y. Wang, F.Wang, Y. Zhang, Y. Cai, Experimentalgeneration of apartially coherent Laguerre-Gaussian beam, Appl.Phys. B109,345-349, (2012).

35. C.Zhao,Y. Dong, G. Wu, F.Wang, Y. Cai, O. Korotkova, Experimentaldemonstration ofcoupling of an electromagnetic Gaussian Schell-model beam intoa single-modeoptical fiber, Appl. Phys. B108,891-895,(2012).

34. Y.Dong,F.Wang, C. Zhao, Y. Cai, Effect of spatial coherenceonpropagation, tight focusing, and radiation force of anazimuthallypolarizedbeam, Phys. Rev. A86, 013840, (2012).

33. Y. Dong,F.Feng, Y.Chen, C. Zhao, Y.Cai, Statistical properties ofanonparaxial cylindrical vector partially coherent field in free space. Opt.Express20,15908-15927, (2012).

32. C.Zhao,Y. Cai, Focusing properties of a general-type beam inturbulentatmosphere, Opt. & Laser Tech.44,1850-1857(2012).

31. K. Wang, C.Zhao*,Analytical solution for an anomalous hollow beam in a fractionalFouriertransforming optical system with a hard aperture, Opt. &LaserTech.44, 1232-1239 (2012).

30. K. Wang, C.Zhao*,X. Lu, Nonparaxial propagation properties for a partiallycoherent anomaloushollow bam, Optik123,202-207 (2012).

2011

29.C.Zhao,Y. Cai, Trapping two types of particles using a focused partiallycoherentelegant Laguerre-Gaussian beam, Opt. Lett.36,2251-2253(2011).

28. Y. Dong,Y.Cai, C. Zhao, M. Yao, Statistics properties of acylindricalvector partially coherent beam, Opt. Express19,5979-5992(2011).

27. Y. Dong,Y.Cai, C. Zhao, Degree of polarization of a tightlyfocusedpartially coherent dark hollow beam, Appl. Phys. B105,405-414,(2011).

26. C.Zhao,Y. Cai, Propagation of partially coherent Lorentz andLorentz-Gauss beamsthrough a paraxial ABCD optical system in a turbulentatmosphere, J.Mod. Opt.58, 810-818 (2011).

25. W. Du, C.Zhao,Y. Cai, Propagation of Lorentz and Lorentz-Gauss beams through anapertured fractionalFourier transform optical system, Opt. &Lasers In Eng.49,25-31, (2011).

2010

24. C.Zhao,Y. Cai, Propagation of a general-type beam through a truncatedfractionalFourier transform optical system, J. Opt. Soc. Am. A27,637-647(2010).

23. C.Zhao,Y. Cai, Propagation of a general-type beam through aperturedaligned andmisaligned ABCD optical system, Appl. Phys. B101,891-900(2010).

22. C.Zhao,K. Huang, X. Lu, Propagation properties of Bessel andBessel-Gaussian beams ina fractional Fourier transform optical system, Opt.& LaserTech. 42, 280-284(2010).

21C. Zhao, Y. Cai, Paraxialpropagation of Lorentz andLorent-Gauss beams in uniaxial crystal orthogonal tothe optical axis, J.Mod. Opt.57, 375-384(2010).

20. K. Wang, C.Zhao*,B. Xu, Propagation of anomalous hollow beam through a misalignedfirst-orderoptical system, Opt. &Laser Tech.42,1218-1222 (2010).

19. Y. Yuan, C.Zhao,Y. Cai, Propagation factors of laser array beams in turbulentatmosphere, J.Mod. Opt.57, 621-631 (2010).

18. Y. Jiang,X.Lu, C. Zhao, Radiation force of highlyfocusedcosine-Gaussian beam on a particle in the Rayleigh scatteringregime, ActaPhys. Sin.59, 3959-3964(2010).

2009

17. C.Zhao,Y. Cai, X. Lu, and H.T. Eyyuboglu, Radiation force of coherent andpartaillycoherent flat-topped beams on a Rayleigh particle, Opt.Express17,1753-1765 (2009).

16. C.Zhao,Y. Cai, O. Korotkova, Radiation force of scalar andelectromagnetic twistedGaussian Schell-model beams, Opt. Express17,21472-21487(2009).

15. B. Xu, C.Zhao,and K. Wang, Propagation of anomalous hollow beams through acircular-aperturedoptical system. J. Mod. Opt.56,1681-1687(2009).

14. K. Wang, C.Zhao,Fractional Fourier transform for an anomalous hollow beam. J.Opt.Soc. Am. A26,2571-2576 (2009).

13. H. Chen,J.Lu, C. Zhao, B. Chen, X.Lu, Study of mode propagationwith632.8-nm laser in tapered fiber. Chin. Opt. Lett. 771-774(2009).

2008

12. C.Zhao,Y. Cai, F. Wang, X. Lu,Y. Wang, Generation of a high-qualitypartially coherentdark hollow beam with a multimode fiber, Opt.Lett. 33(12) 1389-1391(2008).

11. C.Zhao,L. Wang, Propagation of high-order Bessel-Gaussian beams throughahard-aperture misaligned optical system. J. Mod. Opt.55,2269-2277(2008).

10. C.Zhao,X. Lu, and H.Chen, Study of Dark-Hollow Beams Generated withDifferentMultimode Fibres.Chin. Phys. Lett.25, 1678-1679(2008).

9. C.Zhao,L. Wang, and X, Lu, Radiation forces of highly focusedBessel-Gaussian beams ona dielectric sphere. Optik. 119,477–480(2008).

8. C.Zhao,L. Wang, and X. Lu, Focal shift of hollow Gaussian beams through athinlens. Opt & Laser Tech. 40, 58-63(2008).

7. C.Zhao,L. Wang, X.Lu, and H. Chen, Hollow elliptical Gaussian beamsgenerated by atriangular prism.Opt & Laser Tech. 40,575-580(2008).

2007

6. L. Wang, C.Zhao,Dynamic radiation force of a pulsed Gaussian beam acting on aRayleighdielectric sphere, Opt. Express15,1676-1679,(2007).

5. L. Wang, C.Zhao,Effect of spatial coherence on radiation forces acting on aRayleigh dielectricsphere, Opt. Lett. 32, 1393-1395,(2007).

4.C.Zhao,L. Wang, and X.Lu, Radiation forces on a dielectric sphereproduced by highlyfocused hollow Gaussian beams. Phys. Lett. A.363,502-506(2007).

3. C.Zhao, andX. Lu, Propagation of hollow Gaussian beam through amisaligned first-orderoptical system and its propagation properties. Optik. 118,266-270(2007).

2.C.Zhao,L. Wang, X.Lu, and H. Chen, Propagation of high-order Bessel-Gaussianbeamthrough amisaligned first-order optical system, Opt& LaserTech.39,1199-1203(2007).

2006

1.C.Zhao,L. Wang, X.Lu, and Y. Wang, Propagation effect of hollow Gaussianbeams passingthrough a   misaligned optical system, Chin.Phys. Lett.23,2411-2414(2006).

BOOKCHAPTERS:

1Y.J. CaiF. Wang, C.L.Zhao, S.J. Zhu, G.F. Wu,and Y.M. Dong, Partiallycoherent vector beams:from theory to experiment, VectorialOptical Fields:Fundamentals andApplications (Imperial CollegePress, World Scientific Publishing).Editor: Q.W. Zhan, (2013) SBN-13:978-9814449885.


荣誉奖励
  • 1、指导的学生获苏州大学第十六届“挑战杯”大学生课外学术科技作品竞赛特等奖(指导教师),2015
  • 2、指导的学生获2015年度苏州大学大学生创新创业成果优秀论文奖(指导教师),2015
  • 3、江苏省第七批科技镇长团优秀挂职干部,2014
  • 4、江苏省高校“青蓝工程”优秀青年骨干教师,2014
  • 5、苏州市自然科学论文优秀学术论文三等奖,2014
  • 6、指导的2009级本科生董元获2013年江苏省普通高校本专科优秀毕业设计(论文)一等奖,2014
  • 7、指导的2011级本科生获江苏省高校第十一届大学生物理及实验科技作品创新竞赛一等奖,2014
  • 8、江苏省高校第十一届大学生物理及实验科技作品创新竞赛优秀指导教师,2014
  • 9、江苏省第六批科技镇长团优秀挂职干部,2013
  • 10、江苏省第八届基础物理教师上好一堂课竞赛二等奖,2013
  • 11、苏州大学交通银行教学奖,2013
  • 12、获苏州大学文正学院首届微课教学比赛二等奖,2013
  • 13、江苏省高校第九届大学生物理及实验科技作品创新竞赛优秀指导教师,2012
  • 14、苏州市自然科学论文优秀学术论文三等奖,2012
  • 15、苏州大学“主要通识课程十佳教师”,2011
  • 16、苏州大学第十届青年教师课堂教学竞赛一等奖,2011
  • 17、苏州市自然科学优秀学术论文二等奖,2010
  • 18、浙江省自然科学学术奖三等奖,2010
  • 19、浙江省和浙江大学优秀毕业生,2009
开授课程

承担《激光原理》、《普通物理学》、《医用物理学》、《光电检测》等课程的教学工作。

主持教改项目一项:

1.  《基础学科拔尖创新人才培养的研究与实践》(5731501713),2013-2015

多次获教学类奖项

1.  江苏省第八届基础物理教师上好一堂课竞赛二等奖

2.  苏州大学交通银行教学奖

3.  苏州大学文正学院首届微课教学比赛二等奖

4.  江苏省高校第九届大学生物理及实验科技作品创新竞赛优秀指导教师

5.  苏州大学“主要通识课程十佳教师”

6.  苏州大学第十届青年教师课堂教学竞赛一等奖


招生信息

欢迎对光场调控、特种激光束的产生,传输和应用、光学成像有兴趣的本科生加入课题组进行项目研究。

同时欢迎外校本科生报考本人研究生
硕士研究生招生专业:物理学