中国光学
中國光學
중국광학
CHINESE JOURNAL OF OPTICS
2015年
3期
480-497
,共18页
佟存柱%汪丽杰%田思聪%吴昊%舒世立%王立军
佟存柱%汪麗傑%田思聰%吳昊%舒世立%王立軍
동존주%왕려걸%전사총%오호%서세립%왕립군
半导体激光%布拉格反射波导%光子带隙%低发散角
半導體激光%佈拉格反射波導%光子帶隙%低髮散角
반도체격광%포랍격반사파도%광자대극%저발산각
diode laser%Bragg reflection waveguide%photonic bandgap%low divergence
高功率半导体激光器在固体或光纤激光器泵浦、材料加工、医疗、传感、空间通讯和国防上有着极其重要的应用,但传统半导体激光器面临垂直发散角大、椭圆光斑的难题,限制了其直接应用。为了降低激光器的垂直发散角,本项目采用布拉格反射波导结构,利用光子带隙导引替代传统的全反射进行光场限制,优化设计了多种布拉格反射波导激光器结构,并制备了高性能的激光器器件。首先,采用传输矩阵理论和布洛赫波近似的方法计算了布拉格反射波导的模式色散关系,发现通过控制腔模光场分布,可实现不同远场的激光输出。接着,针对布拉格波导光子带隙导引机制,深入研究了四分之一波长布拉格反射波导激光器、单边布拉格反射波导激光器的光场特性,弄清了影响此类激光器远场的本质因素,最终设计并验证了一种布拉格反射波导双光束激光器,激光器在垂直方向可输出两个对称的、近圆形光束,单光束垂直和侧向发散角半高全宽分别低至7.2°和5.4°。另外,通过调控光缺陷层,使激光器工作在受抑隧穿光子带隙导引机制下,实现了超窄的单光束激光输出,激光器单管连续输出功率超过4.6 W,垂直发散角最低降至4.9°(半高全宽)和9.8°(95%功率)。这种高功率、窄的圆形光束输出可以大幅降低半导体激光器的应用成本,提高泵浦或光纤耦合效率,具有广阔的应用前景。
高功率半導體激光器在固體或光纖激光器泵浦、材料加工、醫療、傳感、空間通訊和國防上有著極其重要的應用,但傳統半導體激光器麵臨垂直髮散角大、橢圓光斑的難題,限製瞭其直接應用。為瞭降低激光器的垂直髮散角,本項目採用佈拉格反射波導結構,利用光子帶隙導引替代傳統的全反射進行光場限製,優化設計瞭多種佈拉格反射波導激光器結構,併製備瞭高性能的激光器器件。首先,採用傳輸矩陣理論和佈洛赫波近似的方法計算瞭佈拉格反射波導的模式色散關繫,髮現通過控製腔模光場分佈,可實現不同遠場的激光輸齣。接著,針對佈拉格波導光子帶隙導引機製,深入研究瞭四分之一波長佈拉格反射波導激光器、單邊佈拉格反射波導激光器的光場特性,弄清瞭影響此類激光器遠場的本質因素,最終設計併驗證瞭一種佈拉格反射波導雙光束激光器,激光器在垂直方嚮可輸齣兩箇對稱的、近圓形光束,單光束垂直和側嚮髮散角半高全寬分彆低至7.2°和5.4°。另外,通過調控光缺陷層,使激光器工作在受抑隧穿光子帶隙導引機製下,實現瞭超窄的單光束激光輸齣,激光器單管連續輸齣功率超過4.6 W,垂直髮散角最低降至4.9°(半高全寬)和9.8°(95%功率)。這種高功率、窄的圓形光束輸齣可以大幅降低半導體激光器的應用成本,提高泵浦或光纖耦閤效率,具有廣闊的應用前景。
고공솔반도체격광기재고체혹광섬격광기빙포、재료가공、의료、전감、공간통신화국방상유착겁기중요적응용,단전통반도체격광기면림수직발산각대、타원광반적난제,한제료기직접응용。위료강저격광기적수직발산각,본항목채용포랍격반사파도결구,이용광자대극도인체대전통적전반사진행광장한제,우화설계료다충포랍격반사파도격광기결구,병제비료고성능적격광기기건。수선,채용전수구진이론화포락혁파근사적방법계산료포랍격반사파도적모식색산관계,발현통과공제강모광장분포,가실현불동원장적격광수출。접착,침대포랍격파도광자대극도인궤제,심입연구료사분지일파장포랍격반사파도격광기、단변포랍격반사파도격광기적광장특성,롱청료영향차류격광기원장적본질인소,최종설계병험증료일충포랍격반사파도쌍광속격광기,격광기재수직방향가수출량개대칭적、근원형광속,단광속수직화측향발산각반고전관분별저지7.2°화5.4°。령외,통과조공광결함층,사격광기공작재수억수천광자대극도인궤제하,실현료초착적단광속격광수출,격광기단관련속수출공솔초과4.6 W,수직발산각최저강지4.9°(반고전관)화9.8°(95%공솔)。저충고공솔、착적원형광속수출가이대폭강저반도체격광기적응용성본,제고빙포혹광섬우합효솔,구유엄활적응용전경。
High power diode lasers are widely used for pumping of solid state lasers and fiber lasers, material processing, medical treatment, sensors, free-space optical communication, security and defense.However, the conventional diode lasers usually suffer from a large far-field divergence and strongly elliptical beam, which limit the direct applications.To improve the divergence, diode lasers based on Bragg reflection waveguide(BRW) are studied in this project, which utilizes the photonic bandgap(PBG) effect rather than the total internal reflection( TIR) to provide optical confinement.Several kinds of BRW lasers( BRLs) with different structures are designed and fabricated.First, the mode dispersion equation of the BRW is solved by the transfer matrix method and Bloch theory.The further analysis shows that the far-field distribution of BRW is determined by the mode shape in the cavity.In the case of Bragg form of PBG guidance, the optical field characteristics of a quarter-wave BRL and a single-sided BRL are studied.The essential reason affecting the far-field distribution is investigated.Finally, a twin-beam laser based on BRW is designed and demonstrated. Almost all the emission power of this laser is concentrated in two near-circular lobes in the vertical direction. The full-width at half maximum(FWHM) divergence angles of one beam are as narrow as 7.2°and 5.4°re-spectively in the vertical and lateral direction.Furthermore, the high brightness BRL with a ultra-narrow cir-cular output beam is demonstrated by controlling the defect layer.The ultra-low vertical divergence of 9.8° with 95%power content and 4.9°with the FWHM definition is realized.The maximum output power exceeds 4.6 W under continuous-wave operation at room temperature.The narrow circular beam emission from the BRL can greatly improve the pumping efficiency and optical fiber coupling efficiency without expensive beam shaping.It is believed that the BRLs have a promising application prospect.