{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"本文概述了<span style=\"color:red\">激光</span>晶体掺镱钇铝石榴石(Yb:YAG)的发展状况,简要介绍了掺杂Yb3+离子<span style=\"color:red\">激光</span>材料的特点,总结了Yb:YAG晶体的生长、缺陷、光谱性质以及<span style=\"color:red\">激光</span>性质的研究及发展,并指出了Yb:YAG晶体发展中需要解决的问题.","authors":[{"authorName":"邱宏伟","id":"309cddc3-397f-4425-bd40-eca8feec61e0","originalAuthorName":"邱宏伟"},{"authorName":"毛艳丽","id":"70fd6f35-3916-4c15-83e3-842184f39beb","originalAuthorName":"毛艳丽"},{"authorName":"董俊","id":"b268393c-39d0-4b0d-aff3-4a07cc0fe1eb","originalAuthorName":"董俊"},{"authorName":"邓佩珍","id":"9a03a791-7fa8-43be-a853-a1bfd2b9edee","originalAuthorName":"邓佩珍"},{"authorName":"徐军","id":"60551884-028d-4979-8ab3-8328dec98b2e","originalAuthorName":"徐军"},{"authorName":"陈伟","id":"12c96108-c7e5-4d9c-a199-c0b2b828d3bc","originalAuthorName":"陈伟"}],"doi":"10.3969/j.issn.1007-5461.2002.01.001","fpage":"1","id":"9eb15c67-cc11-4c71-9e79-8dfb29115dc8","issue":"1","journal":{"abbrevTitle":"LZDZXB","coverImgSrc":"journal/img/cover/LZDZXB.jpg","id":"53","issnPpub":"1007-5461","publisherId":"LZDZXB","title":"量子电子学报   "},"keywords":[{"id":"68eb3aac-df8d-4c81-9a29-5c77a9caeaed","keyword":"Yb:YAG","originalKeyword":"Yb:YAG"},{"id":"4680873c-efef-46f0-b57c-949dbf277bf4","keyword":"提拉法","originalKeyword":"提拉法"},{"id":"9f2f9a4d-967a-48be-886c-f9725e087325","keyword":"色心","originalKeyword":"色心"},{"id":"ec5df172-3ee2-42af-8ae0-d831264d766b","keyword":"缺陷","originalKeyword":"缺陷"},{"id":"d142e5c6-906d-4a0e-9ce1-d3a2708bc80a","keyword":"应力","originalKeyword":"应力"},{"id":"a4829e02-45f3-4cef-92d1-d8e06be165c8","keyword":"光谱性质","originalKeyword":"光谱性质"},{"id":"fd780348-cbdd-4cba-b191-2103507ca0b7","keyword":"<span style=\"color:red\">激光</span><span style=\"color:red\">性能</span>","originalKeyword":"激光性能"}],"language":"zh","publisherId":"lzdzxb200201001","title":"<span style=\"color:red\">激光</span>晶体材料Yb:YAG的研究进展","volume":"19","year":"2002"},{"abstractinfo":"采用提拉法生长yb3+掺杂浓度为0.5at％高质量的Yb∶Y3 Al5O12(Yb∶YAG)晶体.对晶体的结晶质量、分凝系数和光谱和<span style=\"color:red\">激光</span><span style=\"color:red\">性能</span>进行了表征.结果表明:所生长的晶体结晶质量较好,在空气中退火后晶体吸收系数略有增加,晶体中自吸收效应的影响很小,具有宽的发射带.Yb∶YAG晶体和Yb∶YAG/YAG复合晶体分别在抽运功率为7.1W和6.15W的LD抽运下,获得2.19W和1.354 W的连续<span style=\"color:red\">激光</span>输出,斜率效率分别为34.58％和25.9％.","authors":[{"authorName":"王晓丹","id":"705b188e-7deb-4f59-9669-0466d0a9ac38","originalAuthorName":"王晓丹"},{"authorName":"赵志伟","id":"d0af16b0-247d-4d51-8283-1d985a7e7c73","originalAuthorName":"赵志伟"},{"authorName":"曾雄辉","id":"b75ed04d-3281-471d-8fe6-9ae641c88933","originalAuthorName":"曾雄辉"},{"authorName":"毛红敏","id":"9af99af6-86c7-41d7-8d73-b3773d9a778c","originalAuthorName":"毛红敏"},{"authorName":"梁晓燕","id":"d5e5d854-6bae-4c8c-9f7b-72d6ad6bc83e","originalAuthorName":"梁晓燕"}],"doi":"","fpage":"758","id":"67348eb3-d157-49a8-82ae-1b711842b537","issue":"4","journal":{"abbrevTitle":"RGJTXB","coverImgSrc":"journal/img/cover/RGJTXB.jpg","id":"57","issnPpub":"1000-985X","publisherId":"RGJTXB","title":"人工晶体学报"},"keywords":[{"id":"b3ad8e23-0f96-4990-9d7c-2363f4f0792a","keyword":"提拉法","originalKeyword":"提拉法"},{"id":"12ab4151-934c-4a96-a8bf-3cf2f364f54e","keyword":"Yb∶YAG晶体","originalKeyword":"Yb∶YAG晶体"},{"id":"e56c808d-7c91-42c3-800b-c1f9ae1b9b65","keyword":"吸收光谱","originalKeyword":"吸收光谱"},{"id":"c8992dd3-433b-4dd5-a336-b828125b8618","keyword":"荧光光谱","originalKeyword":"荧光光谱"},{"id":"6738c183-c728-4f23-bd2f-2154ba87f8d0","keyword":"<span style=\"color:red\">激光</span><span style=\"color:red\">性能</span>","originalKeyword":"激光性能"}],"language":"zh","publisherId":"rgjtxb98201404007","title":"0.5at％Yb∶YAG晶体光谱与<span style=\"color:red\">激光</span><span style=\"color:red\">性能</span>研究","volume":"43","year":"2014"},{"abstractinfo":"用提拉法生长了Nd∶YVO4, Nd∶GdVO4,Nd∶GdxLa1-xVO4(x=0.8, 0.6, 0.45)系列晶体,对影响晶体质量的因素进行了分析,测量了几种晶体的结构和晶胞常数;测量了Nd∶YVO4, Nd∶GdVO4, Nd∶Gd0.8La0.2VO4和Nd∶Gd0.6La0.4VO4晶体的室温吸收谱和荧光谱,用LD泵浦Nd∶YVO4, Nd∶GdVO4, Nd∶Gd0.8La0.2VO4晶体,实现了1.06μm和1.34μm的<span style=\"color:red\">激光</span>输出.","authors":[{"authorName":"张怀金","id":"a4e31d22-ff86-45ef-a4cf-9b80f8dcb207","originalAuthorName":"张怀金"},{"authorName":"王继扬","id":"a3792e5b-03c9-4cf6-b084-5d7e4dde6650","originalAuthorName":"王继扬"},{"authorName":"孟宪林","id":"3952fca9-cfed-48de-a401-3635bab048db","originalAuthorName":"孟宪林"},{"authorName":"于臻","id":"175fc192-166d-4ea2-9864-d3475b2c2cd8","originalAuthorName":"于臻"},{"authorName":"王辉","id":"80b4f0f1-6afc-493a-a37f-5f1cc426bb31","originalAuthorName":"王辉"},{"authorName":"杨军","id":"4b1679cd-9bf3-4ebb-a884-7917b48355d9","originalAuthorName":"杨军"}],"doi":"10.3969/j.issn.1000-985X.2003.05.009","fpage":"446","id":"50b83d70-32a9-4cc7-944d-d89ece982135","issue":"5","journal":{"abbrevTitle":"RGJTXB","coverImgSrc":"journal/img/cover/RGJTXB.jpg","id":"57","issnPpub":"1000-985X","publisherId":"RGJTXB","title":"人工晶体学报"},"keywords":[{"id":"d492b24f-f103-4001-98ae-66461fd109c7","keyword":"钒酸盐系列晶体","originalKeyword":"钒酸盐系列晶体"},{"id":"a1a0be1d-a2a4-40d3-8c4b-23690a025a53","keyword":"晶体生长","originalKeyword":"晶体生长"},{"id":"ba2c6dae-3a8d-4b29-88ab-065e4fc4080f","keyword":"光谱","originalKeyword":"光谱"},{"id":"489df706-0304-459f-bfc4-e0b86df8d698","keyword":"<span style=\"color:red\">激光</span><span style=\"color:red\">性能</span>","originalKeyword":"激光性能"}],"language":"zh","publisherId":"rgjtxb98200305009","title":"钒酸盐系列<span style=\"color:red\">激光</span>晶体制备和<span style=\"color:red\">性能</span>研究","volume":"32","year":"2003"},{"abstractinfo":"以高纯氧化物商业粉体为原料,采用固相反应和真空烧结技术,制备了高质量的1.3at%Nd:YAG透明陶瓷.研究了室温下Nd:YAG透明陶瓷的显微结构、光谱及<span style=\"color:red\">激光</span><span style=\"color:red\">性能</span>.实验结果表明,Nd:YAG透明陶瓷主要以穿晶方式断裂;平均晶粒尺寸为15μm,且分布均匀;晶粒中和晶界处没有检测到杂质和气孔存在,且成分一致,无偏析现象.退火后样品在<span style=\"color:red\">激光</span>波长1064nm处的透过率高达82.4%;主吸收峰位于808.6nm处,峰值吸收系数为4.45cm-1,<span style=\"color:red\">激光</span>波长1064nm处的吸收系数为0.11cm-1;主荧光发射峰位于1064nm处,半高宽为0.82nm,荧光寿命为258 μs.用LD端面泵浦Nd:YAG陶瓷样品(泵浦源最大输出功率为1000mW),获得了波长为1064nm的连续<span style=\"color:red\">激光</span>输出,<span style=\"color:red\">激光</span>阈值约530mW,斜率效率为23.2%,最大泵浦吸收功率为731mW时,最大输出功率为45mW.","authors":[{"authorName":"李江","id":"7978c72c-a883-4511-99c3-9884221f980f","originalAuthorName":"李江"},{"authorName":"吴玉松","id":"b5451413-0442-4c6b-8220-eab86b2fb0a2","originalAuthorName":"吴玉松"},{"authorName":"潘裕柏","id":"397ea069-c7d7-403c-988e-19d34b7cd406","originalAuthorName":"潘裕柏"},{"authorName":"安丽琼","id":"babd2e55-48d6-49ad-88fe-76a27c4b7e32","originalAuthorName":"安丽琼"},{"authorName":"章健","id":"7395234e-885f-4eb5-855a-db749caf619e","originalAuthorName":"章健"},{"authorName":"王士维","id":"2146f427-cb5b-4ed7-83a7-c49afb266233","originalAuthorName":"王士维"},{"authorName":"郭景坤","id":"aceb1437-af8f-4993-8e34-99e4074e0635","originalAuthorName":"郭景坤"}],"doi":"10.3321/j.issn:1000-324x.2007.05.005","fpage":"798","id":"136895ae-6e15-424a-b5f9-eff8766245b7","issue":"5","journal":{"abbrevTitle":"WJCLXB","coverImgSrc":"journal/img/cover/WJCLXB.jpg","id":"62","issnPpub":"1000-324X","publisherId":"WJCLXB","title":"无机材料学报"},"keywords":[{"id":"7fbbb733-a34d-4521-81fe-7f56e1659f36","keyword":"Nd:YAG透明陶瓷","originalKeyword":"Nd:YAG透明陶瓷"},{"id":"6f6acf86-ddb9-4ac6-989d-6c2659d2f047","keyword":"显微结构","originalKeyword":"显微结构"},{"id":"8ac34cae-5590-45fa-aa36-76ef22346d38","keyword":"光谱<span style=\"color:red\">性能</span>","originalKeyword":"光谱性能"},{"id":"972e9ad0-f444-4cd8-b639-863b174f2405","keyword":"<span style=\"color:red\">激光</span><span style=\"color:red\">性能</span>","originalKeyword":"激光性能"}],"language":"zh","publisherId":"wjclxb200705005","title":"1.3at%Nd:YAG透明陶瓷的制备及<span style=\"color:red\">激光</span><span style=\"color:red\">性能</span>研究","volume":"22","year":"2007"},{"abstractinfo":"实验对比研究了 Ga2O5、TeO2、GeO2、WO3、Nb2O5和 Bi2O5金属氧化物的掺入对氟磷<span style=\"color:red\">激光</span>玻璃的光谱和<span style=\"color:red\">激光</span><span style=\"color:red\">性能</span>的影响。结果表明， TeO2、GeO2和Ga2O5的加入增大了Yb3+的吸收和发射截面；其中，掺有TeO2的氟磷玻璃的Yb3+吸收和发射截面最大，分别达到了1.95 pm2和0.85 pm2。Ga2O5、Nb2O5和GeO2的加入对玻璃<span style=\"color:red\">激光</span><span style=\"color:red\">性能</span>的提高具有极大的帮助；其中，在掺有Ga2O5的氟磷玻璃中<span style=\"color:red\">激光</span>参数SFL值最大，为1.237。同时发现，在TeO2和GeO2掺杂氟磷玻璃中也存在严重的Yb3+荧光俘获现象，大大减弱了其<span style=\"color:red\">激光</span><span style=\"color:red\">性能</span>。","authors":[{"authorName":"杨斌华","id":"b7dbeb8e-a6e8-4b52-91df-97b998e644e2","originalAuthorName":"杨斌华"},{"authorName":"刘雪强","id":"a2e8720a-d29f-432d-84d1-deb70d516a3c","originalAuthorName":"刘雪强"},{"authorName":"张威","id":"62aefbc1-1bb8-47d1-a7c3-e7d08e9b0557","originalAuthorName":"张威"},{"authorName":"李响潭","id":"b74d894e-a3c5-4118-b949-6b261eed7f2d","originalAuthorName":"李响潭"},{"authorName":"张丽艳","id":"83e0dbdc-66f2-4d30-a1c0-1edf3764a323","originalAuthorName":"张丽艳"},{"authorName":"胡丽丽","id":"89411d46-fe1f-48b7-b5ba-0f94bb674110","originalAuthorName":"胡丽丽"}],"doi":"10.15541/jim20130660","fpage":"961","id":"a3fd433c-ef3c-469f-b38a-d4b64dcd4d47","issue":"9","journal":{"abbrevTitle":"WJCLXB","coverImgSrc":"journal/img/cover/WJCLXB.jpg","id":"62","issnPpub":"1000-324X","publisherId":"WJCLXB","title":"无机材料学报"},"keywords":[{"id":"3c0bf088-66fd-4002-868c-7accb62ffde1","keyword":"氟磷玻璃","originalKeyword":"氟磷玻璃"},{"id":"0cc82b3d-4060-488f-befd-bbb7d15d4160","keyword":"金属氧化物","originalKeyword":"金属氧化物"},{"id":"6fb48b90-a2e0-466a-9884-54b4b4e95e3f","keyword":"吸收截面","originalKeyword":"吸收截面"},{"id":"870a1b4b-a77d-45d2-a36f-ae3df74a2913","keyword":"发射截面","originalKeyword":"发射截面"},{"id":"4345e317-6044-408e-acde-f0c19a620e09","keyword":"<span style=\"color:red\">激光</span><span style=\"color:red\">性能</span>","originalKeyword":"激光性能"}],"language":"zh","publisherId":"wjclxb201409011","title":"几种重金属氧化物和GeO2的加入对掺Yb3+氟磷玻璃的光谱和<span style=\"color:red\">激光</span><span style=\"color:red\">性能</span>的影响","volume":"","year":"2014"},{"abstractinfo":"采用顶部籽晶提拉法(TSSG)生长出Nd3+:KGd(WO4)2晶体,测得Nd3+实际掺杂浓度3.2 at%.测得样品的吸收光谱及荧光光谱,计算得出808 nm处吸收截面为0.6799×10-20cm2;荧光输出波长为1068 nm和1351 nm,测得荧光寿命为112μs.对不同尺寸的两样品进行了<span style=\"color:red\">激光</span>实验,当LD泵浦源输出功率为900 mW时,分别获得326 mW,305 mW的1064 nm<span style=\"color:red\">激光</span>输出,斜效率分别为62.7%和57.8%.水平和垂直两个方向上光束传输因子M2均小于1.2.经倍频获得532 nm的绿光.用Cr:LuAG作为可饱和吸收体进行调Q实验,重复频率为15 kHz时,脉冲宽为170 ns.","authors":[{"authorName":"王宇明","id":"2ce89bf7-3d80-4756-aafb-4049ac64e6d3","originalAuthorName":"王宇明"},{"authorName":"张礼杰","id":"2b16ba25-4fe8-4382-a440-1adabce80076","originalAuthorName":"张礼杰"},{"authorName":"李建利","id":"b7309175-f709-4e1b-b209-366f1dd48183","originalAuthorName":"李建利"},{"authorName":"雷鸣","id":"1f1bfc24-7956-459c-8752-1cba856e41ee","originalAuthorName":"雷鸣"},{"authorName":"王英伟","id":"a86ec5f2-e67c-4326-a69e-0363430bc897","originalAuthorName":"王英伟"},{"authorName":"刘景和","id":"41d24491-a9ec-4585-a476-6223cd9c0f05","originalAuthorName":"刘景和"}],"doi":"","fpage":"1531","id":"494fc236-2ba6-4e7f-9ce4-1c889cebc4b7","issue":"10","journal":{"abbrevTitle":"XYJSCLYGC","coverImgSrc":"journal/img/cover/XYJSCLYGC.jpg","id":"69","issnPpub":"1002-185X","publisherId":"XYJSCLYGC","title":"稀有金属材料与工程"},"keywords":[{"id":"36e235c9-c0a1-4244-9152-dbc7dd0656cf","keyword":"Nd:KGW晶体","originalKeyword":"Nd:KGW晶体"},{"id":"32a12dd1-f1c9-4100-882d-efd8b64dc998","keyword":"TSSG法","originalKeyword":"TSSG法"},{"id":"4e05a868-f1e4-403d-b138-9466c1072605","keyword":"光谱<span style=\"color:red\">性能</span>","originalKeyword":"光谱性能"},{"id":"7ee6884e-2e4c-41df-b4ba-0f42f666278f","keyword":"<span style=\"color:red\">激光</span><span style=\"color:red\">性能</span>","originalKeyword":"激光性能"}],"language":"zh","publisherId":"xyjsclygc200610005","title":"掺钕钨酸钆钾<span style=\"color:red\">激光</span>晶体生长及<span style=\"color:red\">性能</span>研究","volume":"35","year":"2006"},{"abstractinfo":"本文简要介绍了掺Yb3+<span style=\"color:red\">激光</span>晶体的发展历史;从Yb3+离子的能级结构出发,阐述了掺Yb3+<span style=\"color:red\">激光</span>材料的特点,介绍了几种掺Yb3+<span style=\"color:red\">激光</span>晶体的光谱特性,简述了近年来掺Yb3+<span style=\"color:red\">激光</span>晶体<span style=\"color:red\">激光</span><span style=\"color:red\">性能</span>的研究进展;对掺Yb3+<span style=\"color:red\">激光</span>晶体未来的发展做了展望.","authors":[{"authorName":"杨培志","id":"a18a7547-af73-4625-8c3c-410587381e5c","originalAuthorName":"杨培志"},{"authorName":"邓佩珍","id":"e416bdf1-72a5-4edb-b68c-a0126be5e369","originalAuthorName":"邓佩珍"},{"authorName":"殷之文","id":"70d49cce-7054-41c5-891c-12ea9b9bbdb4","originalAuthorName":"殷之文"}],"doi":"10.3969/j.issn.1000-985X.2000.02.020","fpage":"196","id":"cb90e21b-8579-46f8-9638-79cb1dad544c","issue":"2","journal":{"abbrevTitle":"RGJTXB","coverImgSrc":"journal/img/cover/RGJTXB.jpg","id":"57","issnPpub":"1000-985X","publisherId":"RGJTXB","title":"人工晶体学报"},"keywords":[{"id":"4f0d2563-050f-40ac-ac78-d8668baf227c","keyword":"掺Yb3+<span style=\"color:red\">激光</span>晶体","originalKeyword":"掺Yb3+激光晶体"},{"id":"2e1d7e22-0b81-4908-b279-3a6a740aef1d","keyword":"光谱特性","originalKeyword":"光谱特性"},{"id":"f47e6d32-2fec-4f22-8bc3-c93ff8925e3b","keyword":"<span style=\"color:red\">激光</span><span style=\"color:red\">性能</span>","originalKeyword":"激光性能"},{"id":"1b782199-db59-4501-8269-ac2e85eafbdd","keyword":"研究进展","originalKeyword":"研究进展"}],"language":"zh","publisherId":"rgjtxb98200002020","title":"掺Yb3+<span style=\"color:red\">激光</span>晶体的研究进展","volume":"29","year":"2000"},{"abstractinfo":"采用顶部籽晶法从K2Mo3O10-B2O3助熔剂体系中生长出尺寸达到20 mm的GdAl3(BO3)4(简称GAB)和Yb3+激活的晶体.测试了GAB晶体的<100>和(001)轴向热膨胀系数,确定了透光波长范围,计算了有效倍频系数和相位匹配角随波长的变化,结果表明GAB晶体在整个透光范围内均可实现相位匹配.测定了Yb3+:GAB晶体在室温下的偏振吸收和荧光光谱,进行了光谱计算,测试了晶体的<span style=\"color:red\">激光</span><span style=\"color:red\">性能</span>,在1046 nm处实现了2.1 W<span style=\"color:red\">激光</span>输出,斜率效率达到58%.","authors":[{"authorName":"朱昭捷","id":"8cc35dad-2c8f-4219-81ec-4457894b868d","originalAuthorName":"朱昭捷"},{"authorName":"李坚富","id":"58f041c1-eac1-4b99-a215-c1bea84e3d20","originalAuthorName":"李坚富"},{"authorName":"吴柏昌","id":"903f0871-bd2d-4210-8ed5-ac3f62746f7b","originalAuthorName":"吴柏昌"},{"authorName":"游振宇","id":"ac6dc726-218f-4726-8d1b-5eef4482d903","originalAuthorName":"游振宇"},{"authorName":"王燕","id":"06f9b534-ab56-45cf-beba-4edc485a559b","originalAuthorName":"王燕"},{"authorName":"马兴华","id":"0daea53c-c094-478b-ade4-8f4b03b49774","originalAuthorName":"马兴华"},{"authorName":"涂朝阳","id":"e6c69df6-c2d2-4076-9c41-a781568bcc94","originalAuthorName":"涂朝阳"},{"authorName":"","id":"a322a7fc-c4f0-4ad7-89a1-8366e2e75b64","originalAuthorName":""}],"doi":"","fpage":"507","id":"2fa9fcc5-4dd9-4a39-b2c1-6a5ace6d28a3","issue":"3","journal":{"abbrevTitle":"RGJTXB","coverImgSrc":"journal/img/cover/RGJTXB.jpg","id":"57","issnPpub":"1000-985X","publisherId":"RGJTXB","title":"人工晶体学报"},"keywords":[{"id":"252db340-7488-426e-b6e9-dc896694b73f","keyword":"GdAl3(BO3)4晶体","originalKeyword":"GdAl3(BO3)4晶体"},{"id":"03aace94-6f29-4b4b-9575-6fa211d3d18f","keyword":"Yb3+离子","originalKeyword":"Yb3+离子"},{"id":"0ffcacba-7110-442c-9418-0a1ecaadb9a2","keyword":"光谱<span style=\"color:red\">性能</span>","originalKeyword":"光谱性能"},{"id":"9890bf3c-8b11-44bc-b1ea-2b6622c7f97b","keyword":"<span style=\"color:red\">激光</span><span style=\"color:red\">性能</span>","originalKeyword":"激光性能"}],"language":"zh","publisherId":"rgjtxb98200803001","title":"GdAl3(BO3)4及其Yb3+激活<span style=\"color:red\">激光</span>晶体的研究","volume":"37","year":"2008"},{"abstractinfo":"本文报道了用Bridgman法生长的优质大尺寸Cr∶LiCAF晶体及其闪光灯泵浦<span style=\"color:red\">性能</span>研究.晶体尺寸达φ10×120mm和φ20×100mm,光学质量优良.用氙灯泵浦φ4×70mm的Cr∶LiCAF<span style=\"color:red\">激光</span>棒,在注入能量为137J时,获得了1.84J的能量输出,测得晶体的斜效率为2.38%,无损耗效率为4.31%.","authors":[{"authorName":"方珍意","id":"27a55f5b-19bf-4b18-a254-78a2083379cd","originalAuthorName":"方珍意"},{"authorName":"黄朝恩","id":"02a09d9f-bdaf-45e9-b512-85da792bc82a","originalAuthorName":"黄朝恩"},{"authorName":"徐川","id":"449feab2-6174-469c-958e-716a1ede7fdb","originalAuthorName":"徐川"},{"authorName":"宋英兰","id":"b74dfe0e-8071-4eb8-9fe5-18b20ae62082","originalAuthorName":"宋英兰"},{"authorName":"胡永岚","id":"09ae5180-8ad5-428f-8259-10eddedf35dd","originalAuthorName":"胡永岚"},{"authorName":"师瑞泽","id":"0f369624-f732-4b93-9a22-9f2d4391b3ca","originalAuthorName":"师瑞泽"}],"doi":"10.3969/j.issn.1000-985X.1998.02.002","fpage":"114","id":"4633a2b0-6ebf-4e34-b6f0-3fc9a79743cc","issue":"2","journal":{"abbrevTitle":"RGJTXB","coverImgSrc":"journal/img/cover/RGJTXB.jpg","id":"57","issnPpub":"1000-985X","publisherId":"RGJTXB","title":"人工晶体学报"},"keywords":[{"id":"3c026459-6a1d-402c-b5a1-614653dac355","keyword":"掺铬氟铝酸钙锂晶体","originalKeyword":"掺铬氟铝酸钙锂晶体"},{"id":"e93896fb-eef4-43eb-a932-08052be24c5b","keyword":"<span style=\"color:red\">激光</span>晶体","originalKeyword":"激光晶体"},{"id":"af5f693d-6f87-4601-93dc-4ccce64b9f6a","keyword":"布里奇曼法","originalKeyword":"布里奇曼法"},{"id":"bcf120ba-86f2-4d29-b61b-2dabc9241c4a","keyword":"闪光灯泵浦","originalKeyword":"闪光灯泵浦"},{"id":"d0b51ab7-3d93-4c24-88f1-5ebac2bfc7e5","keyword":"<span style=\"color:red\">激光</span><span style=\"color:red\">性能</span>","originalKeyword":"激光性能"}],"language":"zh","publisherId":"rgjtxb98199802002","title":"Bridgman法生长Cr∶LiCAF晶体及其闪光灯泵浦<span style=\"color:red\">性能</span>","volume":"27","year":"1998"},{"abstractinfo":"采用熔盐提拉法生长出φ20mm×35mm的优质Nd3+:KGd(WO4)2晶体,对晶体三个轴向的光谱进行了测试研究,结果表明a轴向的吸收和荧光谱峰最强,最适合于进行<span style=\"color:red\">激光</span>实验研究.采用脉冲氙灯泵浦φ3.5mm×26mm的<span style=\"color:red\">激光</span>器件,在1.067μm处得到125.5mJ的<span style=\"color:red\">激光</span>输出.在同等条件下对YAG:Nd<span style=\"color:red\">激光</span>晶体进行了<span style=\"color:red\">激光</span>实验研究,并对两种结果进行了比较,结果表明:和YAG:Nd3+晶体相比,KGW:Nd3+晶体具有<span style=\"color:red\">激光</span>阈值低、效率高和输出光为偏振光等优点,因此在小型<span style=\"color:red\">激光</span>器的应用方面具有明显的优势.","authors":[{"authorName":"涂朝阳","id":"0aec19c0-56f3-4748-91d7-45b6abb28b4c","originalAuthorName":"涂朝阳"},{"authorName":"李坚富","id":"95233824-6a9f-4153-b8b9-0444ef21cd88","originalAuthorName":"李坚富"},{"authorName":"游振宇","id":"ee3799a2-73eb-4547-9d35-f3f0663cb9a1","originalAuthorName":"游振宇"},{"authorName":"朱昭捷","id":"a6a4a14a-78f6-49ea-9e15-b3b99b787b4b","originalAuthorName":"朱昭捷"},{"authorName":"吴柏昌","id":"599330ed-be9a-4c49-9182-d27a87d3192b","originalAuthorName":"吴柏昌"},{"authorName":"罗涛","id":"fdbc6c94-a211-4fc4-ac61-74b1990b8ae3","originalAuthorName":"罗涛"},{"authorName":"赖洪章","id":"58f8b8ba-2b4a-4139-bcab-9c0c738c9fa0","originalAuthorName":"赖洪章"}],"doi":"10.3321/j.issn:1000-324X.2004.03.015","fpage":"536","id":"76895e4b-8430-4aca-9365-99cb959688dc","issue":"3","journal":{"abbrevTitle":"WJCLXB","coverImgSrc":"journal/img/cover/WJCLXB.jpg","id":"62","issnPpub":"1000-324X","publisherId":"WJCLXB","title":"无机材料学报"},"keywords":[{"id":"cd78c7bd-d108-41fb-8136-0a177b06bbf0","keyword":"Nd3+:KGd(WO4)2晶体","originalKeyword":"Nd3+:KGd(WO4)2晶体"},{"id":"ebd81c6f-84c1-487e-b8df-a1aea794247c","keyword":"熔盐提拉法","originalKeyword":"熔盐提拉法"},{"id":"3f246f46-6095-466e-a5b4-da87680b8ae9","keyword":"光谱<span style=\"color:red\">性能</span>","originalKeyword":"光谱性能"},{"id":"420c2af0-6400-4b3c-91d7-128a8c70836c","keyword":"<span style=\"color:red\">激光</span><span style=\"color:red\">性能</span>","originalKeyword":"激光性能"}],"language":"zh","publisherId":"wjclxb200403015","title":"熔盐提拉法生长的Nd3+:KGd(WO4)2单晶的<span style=\"color:red\">性能</span>研究","volume":"19","year":"2004"}],"totalpage":9049,"totalrecord":90488}