代表性专利


1.带通滤波器,申请号201410828970.0,分类号H01P1/20(2006.01)I,授权日期2018/3/23。

2.测量用回音壁模式谐振器,申请号201410076763.4,分类号G01R27/02(2006.01)I H03B1/00(2006.01)I,授权日期2017/7/14。

3.基于组合薄膜的宽温区可调谐微波器件,申请号201410026262.5,分类号H01G4/33(2006.01)I H01G4/06(2006.01)I,授权日期2017/2/1。

4.一种微带阶跃阻抗谐振器及微带滤波器,申请号201110009142.0,分类号H01P7/08(2006.01)I H01P1/203(2006.01)I,授权日期2015/2/11。

5.一种微带巴仑,申请号201110359420.5 ,分类号H01P5/10(2006.01)I,授权日期2014/11/26。

6.一种二维片状双模谐振器、滤波器及其制造方法,申请号200910082401.5,分类号H01P7/08(2006.01)I H01P1/203(2006.01)I H01P11/00(2006.01)I,授权日期2014/7/2。

7.一种可调谐滤波器谐振器及其制作方法,申请号201010168035.8,分类号H01P7/08(2006.01)I H01P1/20(2006.01)I H01P11/00(2006.01)I,授权日期2013/5/22。

8.一种高温超导双工子系统,申请号200910088668.5,分类号H04B1/38(2006.01)I H04B7/00(2006.01)I,授权日期2013/4/3。

9.一种高温超导收发子系统,申请号200910088669.X,分类号H04B1/38(2006.01)I H04B7/005(2006.01)I,授权日期2013/4/3。

10.一种真空抽气装置,申请号201010033804.3,分类号H01J19/70(2006.01)I,授权日期2013/1/30。

11.一种绝热支撑装置,申请号200910238229.8,分类号F16L59/00(2006.01)I,授权日期2012/11/14。

12.微带滤波器及其微带谐振器的耦合方法,申请号200810102870.4,分类号H01P5/04(2006.01)I H01P1/203(2006.01)I H01P7/08(2006.01)I,授权日期2012/7/25。

13.一种平面超导微带谐振器,申请号200810102869.1,分类号H01P7/08(2006.01)I,授权日期2012/7/4。

14.一种绝热支撑装置,申请号200810227159.1,分类号F28F9/007(2006.01)I,授权日期2011/7/13。

15.一种对平面超导微带谐振器进行检测与优化的方法,申请号200810149558.0,分类号H01P7/08(2006.01)I G06F17/50(2006.01)I,授权日期2010/11/10。

16.一种超导微带滤波器的调谐机构,申请号200510086511.0,分类号H01P1/20(2006.01)I,授权日期2010/5/12。

17.一种平面超导微带谐振器,申请号200510093642.1,分类号H01P7/08(2006.01)I,授权日期2010/5/12。

18.一种用于气象雷达接收机前端的微波子系统,申请号200510114886.3,分类号G01S7/285(2006.01)I G01S7/292(2006.01)I G01S13/95(2006.01)I,授权日期2010/5/12。


代表性论文

1. Haibo Huang, Yun Wu, Jia Wang, Yongbo Bian, Xu Wang, Guoqiang Li, Xueqiang Zhang, Chunguang Li*, Liang Sun*, and Yusheng He, A wideband UHF high-temperature superconducting filter system with a fractional bandwidth over 108%,Physica C, 550, 78-81 (2018).


2. Liang Sun, Nickolay Cherpak, Alexander Barannik, Yu-Sheng He, Vladimir Glamazdin, Xueqiang Zhang, Jia Wang, and Vladimir Zolotaryov, New Type of Microwave High-Tc Superconductor Microstrip Resonator and Its Application Prospects, IEEE Transactions on Applied Superconductivity, 27(4), 1501304 (2017).

3. 李春光,王旭,王佳,孙亮*,何豫生,高温超导滤波器及其应用研究进展,科学通报,62(34),4010-4024 (2017)。

4.Liang Sun and Yusheng He, Research Progress of High Temperature Superconducting Filters in China, IEEE Transactions on Applied Superconductivity, 2014, 24(5), 1501308.

5. 孙亮,黎红,张雪强,李春光,张强,王佳,边勇波,何豫生,高温超导滤波器应用的探索与实践,中国科学:物理学 力学 天文学,2012,42(8),767-792.

6.Jin Guo, Liang Sun, Shuyu Zhou, et al., A 12-pole K-band wideband high-temperature superconducting microstrip filter. IEEE Transactions on Applied Superconductivity, 2012, 22(2), 1500106.

7. Andrea Splendiani, Liang Sun, Yuanbo Zhang, et al., Emerging Photoluminescence in Monolayer MoS2Nano Letters, 2010, 10(4), 1271-1275.

8. Bin Cui, Xueqiang Zhang, Liang Sun, et al., A high-performance narrowband high temperature superconducting filter, Chinese Science Bulletin, 2010, 55(14), 1367-1371.

9. Lu Gao, Liang Sun, Fei Li,  et al., “8-GHz narrowband high-temperature superconducting filter with high selectivity and flat group delay”, IEEE Transactions on Microwave Theory and Techniques, 2009, 57(7), 1767-1773.

10. Liang Sun, Chunguang Li, Xueqiang Zhang, et al., An HTS microstrip equalizer for improving the group delay of the HTS filter for third-generation communications, Superconductor Science and Technology, 2008, 21(3), 035003.

11. Jiandong Huang, Liang Sun, Shunzhou Li, et al., Space qualification mechanical tests of HTS filters for satellite application, Chinese Science Bulletin, 2007, 52(13), 1771-1775.

12. Jing Chen, Liang Sun, Jiandong Huang, et al., A compact integration of high-temperature superconducting bandpass and bandstop filters, Intemational Joumal of Modem Physics B, 2005, 19, 387-389.

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