A Field Tunable Multichannel Microwave Delay-Line Using a Piezoelectric-Piezomagnetic Superlattice 被引量：1

下载PDF

导出

摘要 The microwave slow-light delay-line has broad applications in signal processing systems,and the tunable slow-light delay-line is particularly important for adjusting the timing of wave packets and phased array beam shapers.We propose to construct multichannel microwave slow-light delay-lines using piezoelectric(PMN-PT)and piezomagnetic(CoFe_(2)O_(4))superlattices(PPS).The group velocity can be slowed down by a factor of 14612(31554)and a delay bandwidth product(DBP)of 25(47)can be achieved for the first(second)channels with a sample length of 1 cm around 10GHz(21 GHz).Furthermore,a tunable time-delay from 590 ps(590ps)to 480ns(1052 ns)can be realized by flipping the magnetic domains using an external magnetic field.The nonreciprocal polaritonic bands also contain the basic building blocks for designing the compact microwave isolator.

作者 TANG Zheng-Hua ZHANG Wei-Yi 唐政华;章维益(National Laboratory of Solid State Microstructures and Department of Physics,Nanjing University,Nanjing 210093)

机构地区 National Laboratory of Solid State Microstructures and Department of Physics

出处《Chinese Physics Letters》 SCIE CAS CSCD 2012年第11期63-66,共4页 中国物理快报（英文版）

基金 Supported by the National Basic Research Program of China(2010CB923404) the Excellent Youth Foundation(10025419).

关键词 TUNABLE DELAY MICROWAVE

分类号 TN2 [电子电信—物理电子学]

引文网络
相关文献

同被引文献14

1LU Y Q, ZHU Y Y,CHEN Y F,et al. Optical propertiesof an ionic-type phononic crystal[ J]. Science, 1999,284(5421) : 1822-1824.
2ZHU Y Y,ZHANG X J, LU Y Q, et al. New type ofpolariton in a piezoelectric superlattice [ J ]. PhysicalReview Letter, 2003,90(5) : Art 053903 ,4pp.
3ZHANG WY, LIUZX, WANG Z L. Band structures andtransmission spectra of piezoelectric superlattices [ J ].Physical Review B,2005,71( 19) : Art 195114, 9pp.
4LIU Z X,ZHANG W Y. Study of the phonon-polaritonsin piezomagnetic superlattices using a generalized transfermatrix method [ J ]. Journal of Physics : Condensed Mat-ter, 2006,18(39): 9083-9092.
5Hu X K, MING Y,ZHANG X J,et aJ. Miniicing surfacephonon polaritons in microwave band based on ionic-typephononic crystal [ J ]. Applied Physics Letter, 2012, 101(15):Art 151109,4pp.
6YUDISTIRA D,BOES A, DJAFARI-ROUHANI B, et al.Monolithic phononic crystals with a surface acoustic bandgap from surface phonon-polariton coupling[ J]. PhysicalReview Letter, 2014,113(21) :Art 215503,5pp.
7FETISOV Y K,SRINIVASAN G. Electrically tunable fer-rite-ferroelectric microwave delay lines [ J ]. Applied Phy-sics Letter, 2005,87( 10) : Art 103502,3pp.
8ZHENG H,WANG J,LOFLAND S E,et al. MultiferroicBaTi03-GoFe204 nanostructures [ J ]. Science, 2004, 303(5658) :661-663.
9FENG M,WANG W,ZHOU Y,et al. Influence of resi-dual stress on magnetoelectric coupling of bilayeredCoFe2 04/PMN-PT thin films [ J ]. Journal of MaterialsChemistry, 2011,21 (29) : 10738-10743.
10NAN C W. Magnetoelectric effect in composites of piezoe-lectric and piezomagnetic phases [ J ]. Physical Review B ,1994,50(9):6082-6088.

引证文献1

1唐政华,雷大军,黄健全,邱枫,蒋纯志,姚敏,杨丽萍.四类畴压电压磁超晶格的电磁波单方向透射[J].华南师范大学学报（自然科学版）,2016,48(4):26-30.

1Xin-Lei Wang,Yuan Liu,Xiang Chen.Tailoring magnetostriction and magnetic domains of <100>-oriented Fe80Ga16Al4 alloy by magnetic field annealing[J].Rare Metals,2021,40(3):563-569. 被引量：1
2Yulu Qin,Boyu Ji,Xiaowei Song,Jingquan Lin.Ultrafast spatiotemporal control of directional launching of surface plasmon polaritons in a plasmonic nano coupler[J].Photonics Research,2021,9(4):514-520. 被引量：1
3ZHANG Chang-Sheng,MA Tian-Yu,PAN Xing-Wen,YAN Mi.Domain Rotation Simulation of the Magnetostriction Jump Effect of 〈110〉 Oriented TbDyFe Crystals[J].Chinese Physics Letters,2012,29(2):193-196. 被引量：1
4I.S.Amiri,A.Afroozeh,M.Bahadoran.Simulation and Analysis of Multisoliton Generation Using a PANDA Ring Resonator System[J].Chinese Physics Letters,2011,28(10):95-98.
5YUHUA LI,KUN ZHU,ZHE KANG,WAI LOK HO,ROY DAVIDSON,CHAO LU,BRENT ELITTLE,SAI TAK CHU.CMOS-compatible high-index doped silica waveguide with an embedded silicon-nanocrystal strip for all-optical analog-to-digital conversion[J].Photonics Research,2019,7(10):1200-1208. 被引量：5
6DENG Ming-Xi,XIANG Yan-Xun,LIU Liang-Bing.Time-Domain Second-Harmonic Generation of Primary Lamb-Wave Propagation in an Elastic Plate[J].Chinese Physics Letters,2011,28(7):194-197. 被引量：2
7FANG Yi-Jiao,CHEN Zhuo,WANG Zhen-Lin.Slow-Light Propagation in a Tapered Dielectric Periodic Waveguide over Broad Frequency Range[J].Chinese Physics Letters,2011,28(5):132-135.
8REN Zhi-Jun,YING Chao-Fu,FAN Chang-Jiang,WU Qiong.The Generation Mechanism of Airy–Bessel Wave Packets in Free Space[J].Chinese Physics Letters,2012,29(12):105-108.
9Dragomir Neshev,Igor Aharonovich.Optical metasurfaces: new generation building blocks for multi-functional optics[J].Light(Science & Applications),2018,7(1):495-499. 被引量：20
10LIU Jun-min,LIAO Chang-jun,LIU Song-hao,XU Wen-cheng.Direction-Dependent Switching in Nonlinear Chirped Gratings[J].Chinese Physics Letters,1996,13(4):285-288.

Chinese Physics Letters

2012年第11期

浏览历史

内容加载中请稍等...

A Field Tunable Multichannel Microwave Delay-Line Using a Piezoelectric-Piezomagnetic Superlattice 被引量：1

同被引文献14

引证文献1

相关作者

相关机构

相关主题

浏览历史