期刊文献+
共找到21篇文章
< 1 2 >
每页显示 20 50 100
Coupled Electromagnetic Circuits and Their Connection to Quantum Mechanical Resonance Interactions and Biorhythms 被引量:2
1
作者 W.Ulmer G.Cornelissen 《Open Journal of Biophysics》 2013年第4期253-274,共22页
The existence of specific biorhythms and the role of geomagnetic and/or solar magnetic activities are well-established by appropriate correlations in chronobiology. From a physical viewpoint, there are two different a... The existence of specific biorhythms and the role of geomagnetic and/or solar magnetic activities are well-established by appropriate correlations in chronobiology. From a physical viewpoint, there are two different accesses to biorhythms to set up connections to molecular processes: quantum mechanical perturbation theoretical methods and their resonance dominators to characterize specific interactions between constituents. These methods permit the treatment of molecular processes by circuits with characteristic resonances and “beat-frequencies”, which result from primarily fast physical processes. As examples, the tunneling processes between DNA base pairs (H bonds), the ATP decomposition and the irradiation of tumor cells are accounted for. 展开更多
关键词 Electromagnetic Circuits BIORHYTHMS Quantum mechanical resonance Interactions
下载PDF
Electro-mechanical coupling properties of band gaps in an with periodically attached “spring-mass” resonators
2
作者 ZHANG Jian QIAN Deng-hui +1 位作者 REN Long WANG Qi 《Applied Mathematics(A Journal of Chinese Universities)》 SCIE CSCD 2023年第3期429-443,共15页
The model of a locally resonant (LR) epoxy/PZT-4 phononic crystal (PC)nanobeam with “spring-mass” resonators periodically attached to epoxy is proposed. The corresponding band structures are calculated by coupling E... The model of a locally resonant (LR) epoxy/PZT-4 phononic crystal (PC)nanobeam with “spring-mass” resonators periodically attached to epoxy is proposed. The corresponding band structures are calculated by coupling Euler beam theory, nonlocal piezoelectricity theory and plane wave expansion (PWE) method. Three complete band gaps with the widest total width less than 10GHz can be formed in the proposed nanobeam by comprehensively comparing the band structures of three kinds of LR PC nanobeams with resonators attached or not. Furthermore, influencing rules of the coupling fields between electricity and mechanics,“spring-mass” resonator, nonlocal effect and different geometric parameters on the first three band gaps are discussed and summarized. All the investigations are expected to be applied to realize the active control of vibration in the region of ultrahigh frequency. 展开更多
关键词 phononic crystal nanobeam electro-mechanical coupling effect nonlocal effect locally resonant mechanism
下载PDF
Modeling and analysis of gradient metamaterials for broad fusion bandgaps
3
作者 Changqi CAI Chenjie ZHU +4 位作者 Fengyi ZHANG Jiaojiao SUN Kai WANG Bo YAN Jiaxi ZHOU 《Applied Mathematics and Mechanics(English Edition)》 SCIE EI CSCD 2024年第7期1155-1170,共16页
A gradient metamaterial with varying-stiffness local resonators is proposed to open the multiple bandgaps and further form a broad fusion bandgap.First,three local resonators with linearly increasing stiffness are per... A gradient metamaterial with varying-stiffness local resonators is proposed to open the multiple bandgaps and further form a broad fusion bandgap.First,three local resonators with linearly increasing stiffness are periodically attached to the spring-mass chain to construct the gradient metamaterial.The dispersion relation is then derived based on Bloch's theorem to reveal the fusion bandgap theoretically.The dynamic characteristic of the finite spring-mass chain is investigated to validate the fusion of multiple bandgaps.Finally,the effects of the design parameters on multiple bandgaps are discussed.The results show that the metamaterial with a non-uniform stiffness gradient pattern is capable of opening a broad fusion bandgap and effectively attenuating the longitudinal waves within a broad frequency region. 展开更多
关键词 local resonance mechanism elastic metamaterial stiffness gradient bandgap fusion broadband wave attenuation
下载PDF
State Modeling Based Prediction of Torsional Resonances for Horizontal-Axis Drive Train Wind Turbine 被引量:1
4
作者 Rene Wamkeue Youssef Chrouro +1 位作者 Joseph Song-Mangelle Maurlce Nyobe-Yome 《Journal of Energy and Power Engineering》 2012年第11期1843-1847,共5页
This paper focuses on the state space modeling approach and output torques prediction of torsional vibrations for variable speed wind turbines. The multi-body system model under study is mainly comprised of a wind tur... This paper focuses on the state space modeling approach and output torques prediction of torsional vibrations for variable speed wind turbines. The multi-body system model under study is mainly comprised of a wind turbine, a three stage planetary gear box and an induction generator. The masses-springs approach of shaft system differential equations is developed from Newton's law and Lagrange formulas. For an easy comprehension for electrical engineers and tutorial purpose, an electrical equivalent circuit of the system is proposed by using mechanical and electrical components similarities. Extensive numerical simulations are performed to investigate system mechanical resonances and impacts of damping factors on the system dynamic and stability. 展开更多
关键词 State modeling wind turbine gear box mechanical resonances torsional vibrations stability and simulations.
下载PDF
Review of cavity optomechanical cooling 被引量:6
5
作者 刘永椿 胡毓文 +1 位作者 黄智维 肖云峰 《Chinese Physics B》 SCIE EI CAS CSCD 2013年第11期101-113,共13页
Quantum manipulation of macroscopic mechanical systems is of great interest in both fundamental physics and ap- plications ranging from high-precision metrology to quantum information processing. For these purposes, a... Quantum manipulation of macroscopic mechanical systems is of great interest in both fundamental physics and ap- plications ranging from high-precision metrology to quantum information processing. For these purposes, a crucial step is to cool the mechanical system to its quantum ground state. In this review, we focus on the cavity optomechanical cooling, which exploits the cavity enhanced interaction between optical field and mechanical motion to reduce the thermal noise. Recent remarkable theoretical and experimental efforts in this field have taken a major step forward in preparing the mo- tional quantum ground state of mesoscopic mechanical systems. This review first describes the quantum theory of cavity optomechanical cooling, including quantum noise approach and covariance approach; then, the up-to-date experimental progresses are introduced. Finally, new cooling approaches are discussed along the directions of cooling in the strong coupling regime and cooling beyond the resolved sideband limit. 展开更多
关键词 cavity optomechanics optomechanical cooling ground state cooling mechanical resonator
下载PDF
Wave propagation control in periodic track structure through local resonance mechanism 被引量:10
6
作者 WANG Ping YI Qiang +2 位作者 ZHAO Cai-you XING Meng-ting LU J 《Journal of Central South University》 SCIE EI CAS CSCD 2018年第12期3062-3074,共13页
Excessive vibration and noise radiation of the track structure can be caused by the operation of high speed trains.Though the track structure is characterized by obvious periodic properties and band gaps,the bandwidth... Excessive vibration and noise radiation of the track structure can be caused by the operation of high speed trains.Though the track structure is characterized by obvious periodic properties and band gaps,the bandwidth is narrow and the elastic wave attenuation capability within the band gap is weak.In order to effectively control the vibration and noise of track structure,the local resonance mechanism is introduced to broaden the band gap and realize wave propagation control.The locally resonant units are attached periodically on the rail,forming a new locally resonant phononic crystal structure.Then the tuning of the elastic wave band gaps of track structure is discussed,and the formation mechanism of the band gap is explicated.The research results show that a new wide and adjustable locally resonant band gap is formed after the resonant units are introduced.The phenomenon of coupling and transition can be observed between the new locally resonant band gap and the original band gap of the periodic track structure with the band gap width reaching the maximum at the coupling position.The broader band gap can be applied for vibration and noise reduction in high speed railway track structure. 展开更多
关键词 wave propagation control periodic track structure band gap local resonance mechanism transfer matrix
下载PDF
Research on Resonance Mechanism of Arc-ultrasonic 被引量:8
7
作者 Chunlei ZHANG+, Minsheng WU, Honpei HAO and Zandong HAN (Department of Mechanical Engineering, Tsinghua Universitys Beijing 100084, China) 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2000年第5期525-528,共4页
As a transmission medium, welding arc can be modulated to emit ultrasonic energy by exerting high-frequency electric current. The frequency of exciting electric current has notable influence on the signals recorded by... As a transmission medium, welding arc can be modulated to emit ultrasonic energy by exerting high-frequency electric current. The frequency of exciting electric current has notable influence on the signals recorded by the sensors and the metallographic structures of the welds. The resonance phenomenon of arc-uitrasonic has been found in the experiment. Both the resonance mechanism and the distribution of resonance frequency are discussed by the bui|t vibration equation. 展开更多
关键词 Research on resonance Mechanism of Arc-ultrasonic ARC
下载PDF
Two-mode squeezed state of nanomechanical resonators
8
作者 范瑞琴 羊红光 白志明 《Applied Mathematics and Mechanics(English Edition)》 SCIE EI 2009年第9期1161-1167,共7页
In this paper, we introduce a flexible model for the control and measurement of NAMRs (nanomechanical resonators). We obtain the free Hamiltonian of the dcSQUID (direct current superconducting quantum interference ... In this paper, we introduce a flexible model for the control and measurement of NAMRs (nanomechanical resonators). We obtain the free Hamiltonian of the dcSQUID (direct current superconducting quantum interference device) and the interaction Hamiltonian between these two NAMRs and the dc-SQUID by introducing the annihilation and creation operators under the rotating wave approximation. We can treat the mode of the dc-SQUID as a classical field. In the Heisenberg picture, the generation of two-mode squeezed states of two nanomechanical resonators is shown by their collective coordinate and momentum operators. 展开更多
关键词 squeezed state TWO-MODE mechanical resonator
下载PDF
Soliton molecules and asymmetric solitons of the extended Lax equation via velocity resonance
9
作者 Hongcai Ma Yuxin Wang Aiping Deng 《Chinese Physics B》 SCIE EI CAS CSCD 2022年第1期112-117,共6页
We investigate the techniques for velocity resonance and apply them to construct soliton molecules using two solitons of the extended Lax equation.What is more,each soliton molecule can be transformed into an asymmetr... We investigate the techniques for velocity resonance and apply them to construct soliton molecules using two solitons of the extended Lax equation.What is more,each soliton molecule can be transformed into an asymmetric soliton by changing the parameterφ.In addition,the collision between soliton molecules(or asymmetric soliton)and several soliton solutions is observed.Finally,some related pictures are presented. 展开更多
关键词 the extended Lax equation soliton molecules velocity resonance mechanism
下载PDF
Resonance mechanism of flapping wing based on fluid structure interaction simulation 被引量:1
10
作者 Yueyang GUO Wenqing YANG +1 位作者 Yuanbo DONG Dong XUE 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2024年第5期243-262,共20页
Certain insect species have been observed to exploit the resonance mechanism of their wings.In order to achieve resonance and optimize aerodynamic performance,the conventional approach is to set the flapping frequency... Certain insect species have been observed to exploit the resonance mechanism of their wings.In order to achieve resonance and optimize aerodynamic performance,the conventional approach is to set the flapping frequency of flexible wings based on the Traditional Structural Modal(TSM)analysis.However,there exists controversy among researchers regarding the relationship between frequency and aerodynamic performance.Recognizing that the structural response of wings can be influenced by the surrounding air vibrations,an analysis known as Acoustic Structure Interaction Modal(ASIM)is introduced to calculate the resonant frequency.In this study,Fluid Structure Interaction(FSI)simulations are employed to investigate the aerodynamic performance of flapping wings at modal frequencies derived from both TSM and ASIM analyses.The performance is evaluated for various mass ratios and frequency ratios,and the findings indicate that the deformation and changes in vortex structure exhibit similarities at mass ratios that yield the highest aerodynamic performance.Notably,the flapping frequency associated with the maximum time-averaged vertical force coefficient at each mass ratio closely aligns with the ASIM frequency,as does the frequency corresponding to maximum efficiency.Thus,the ASIM analysis can provide an effective means for predicting the optimal flapping frequency for flexible wings.Furthermore,it enables the prediction that flexible wings with varying mass ratios will exhibit similar deformation and vortex structure changes.This paper offers a fresh perspective on the ongoing debate concerning the resonance mechanism of Flexible Flapping Wings(FFWs)and proposes an effective methodology for predicting their aerodynamic performance. 展开更多
关键词 Flexible Flapping Wing(FFW) Acoustic Structure Interaction Modal(ASIM) Fluid Structure Interaction(FSI) resonance mechanism Aerodynamic performance
原文传递
New atom movement mechanism for tracking path on disordering AuCuI(A_8^(Au)A_4^(Cu)) compound 被引量:3
11
作者 谢佑卿 彭红建 +2 位作者 刘心笔 李小波 聂耀庄 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2014年第10期3221-3256,共36页
Taking experimental path on disordering AuCuI(AAuCu8A4)composed of A Au8 and ACu4 stem alloy genes as an example, three discoveries and a method were presented. The ability of Au Cu I(AAu Cu8 A4)to keep structure ... Taking experimental path on disordering AuCuI(AAuCu8A4)composed of A Au8 and ACu4 stem alloy genes as an example, three discoveries and a method were presented. The ability of Au Cu I(AAu Cu8 A4)to keep structure stabilization against changing temperature is attributed to the fact that the AAu8 and ACu4 potential well depths greatly surpass their vibration energies, which leads to the subequilibrium of experimental path. A new atom movement mechanism of AuCuI(AAuACu84)to change structure for suiting variation in temperature is the resonance activating-synchro alternating of alloy genes, which leads to heterogeneous and successive subequilibrium transitions. There exists jumping order degree, which leads to the existence of jumping Tj-temperature and an unexpected so-called "retro-effect" about jumping temperature retrograde shift to lower temperatures upon the increasing heating rate. A set of subequilibrium holographic network path charts were obtained by the experimental mixed enthalpy path method. 展开更多
关键词 INTERMETALLICS alloy gene order/disorder transformation resonance activating-synchro alternating mechanism thermodynamic properties equilibrium and subequilibrium holographic network path charts
下载PDF
Periodic Orbits in Rotating Second Degree and Order Gravity Fields 被引量:3
12
作者 Wei-Duo Hu Daniel J. Scheeres 《Chinese Journal of Astronomy and Astrophysics》 CSCD 2008年第1期108-118,共11页
Periodic orbits in an arbitrary 2nd degree and order uniformly rotating gravity field are studied. We investigate the four equilibrium points in this gravity field. We see that close relation exists between the stabil... Periodic orbits in an arbitrary 2nd degree and order uniformly rotating gravity field are studied. We investigate the four equilibrium points in this gravity field. We see that close relation exists between the stability of these equilibria and the existence and stability of their nearby periodic orbits. We check the periodic orbits with non-zero periods. In our searching procedure for these periodic orbits, we remove the two unity eigenvalues from the state transition matrix to find a robust, non-singular linear map to solve for the periodic orbits. The algorithm converges well, especially for stable periodic orbits. Using the searching procedure, which is relatively automatic, we find five basic families of periodic orbits in the rotating second degree and order gravity field for planar motion, and discuss their existence and stability at different central body rotation rates. 展开更多
关键词 celestial / orbital mechanics - asteroid - periodic orbit - resonance
下载PDF
Visualizing nonlinear resonance in nanomechanical systems via single-electron tunneling
13
作者 Xinhe Wang Lin Cong +8 位作者 Dong Zhu Zi Yuan Xiaoyang Lin Weisheng Zhao Zaiqiao Bai Wenjie Liang Ximing Sun Guang-Wei Deng Kaili Jiang 《Nano Research》 SCIE EI CAS CSCD 2021年第4期1156-1161,共6页
Numerous reports have elucidated the importance of mechanical resonators comprising quantum-dot-embedded carbon nanotubes(CNTs)for studying the effects of single-electron transport.However,there is a need to investiga... Numerous reports have elucidated the importance of mechanical resonators comprising quantum-dot-embedded carbon nanotubes(CNTs)for studying the effects of single-electron transport.However,there is a need to investigate the single-electron transport that drives a large amplitude into a nonlinear regime.Herein,a CNT hybrid device has been investigated,which comprises a gate-defined quantum dot that is embedded into a mechanical resonator under strong actuation conditions.The Coulomb peak positions synchronously oscillate with the mechanical vibrations,enabling a single-electron Chopper*1 mode.Conversely,the vibration amplitude of the CNT versus its frequency can be directly visualized via detecting the time-averaged single-electron tunneling current.To understand this phenomenon,a general formula is derived for this time-averaged single-electron tunneling current,which agrees well with the experimental results.By using this visualization method,a variety of nonlinear motions of a CNT mechanical oscillator have been directly recorded,such as Duffing nonlinearity,parametric resonance,and double-,fractional-,mixed-frequency excitations.This approach opens up burgeoning opportunities for investigating and understanding the nonlinear motion of a nanomechanical system and its interactions with electron transport in quantum regimes. 展开更多
关键词 carbon nanotube mechanical resonator quantum dot nonlinear COUPLING
原文传递
Microscale Crystalline Rare-Earth Doped Resonators for Strain-Coupled Optomechanics
14
作者 Jean-François Motte Nicolas Galland +7 位作者 Jérôme Debray Alban Ferrier Philippe Goldner Nemenja Lucic Shuo Zhang Bess Fang Yann Le Coq Signe Seidelin 《Journal of Modern Physics》 2019年第11期1342-1352,共11页
Rare-earth ion doped crystals for hybrid quantum technologies are an area of growing interest in the solid-state physics community. We have earlier theoretically proposed a hybrid scheme of a mechanical resonator whic... Rare-earth ion doped crystals for hybrid quantum technologies are an area of growing interest in the solid-state physics community. We have earlier theoretically proposed a hybrid scheme of a mechanical resonator which is fabricated out of a rare-earth doped mono-crystalline structure. The rare-earth ion dopants have absorption energies which are sensitive to crystal strain, and it is thus possible to couple the ions to the bending motion of the crystal cantilever. This type of resonator can be useful for either investigating the laws of quantum physics with material objects or for applications such as sensitive force-sensors. Here, we present the design and fabrication method based on focused-ion-beam etching techniques which we have successfully employed in order to create such microscale resonators, as well as the design of the environment which will allow studying the quantum behavior of the resonators. 展开更多
关键词 Rare-Earth Doped Crystals mechanical Resonators OPTOMECHANICS Quantum Physics Strain-Coupling Spectral Hole Burning Focused-Ion-Beam Etching Techniques
下载PDF
Optical fiber-based magnetically-tuned graphene mechanical resonator
15
作者 曹鸿谦 刘增勇 +3 位作者 李丹然 鲁振达 陈烨 徐飞 《Chinese Optics Letters》 SCIE EI CAS CSCD 2023年第1期44-48,共5页
In this study,an optical fiber-based magnetically-tuned graphene mechanical resonator(GMR)is demonstrated by integrating superparamagnetic iron oxide nanoparticles on the graphene membrane.The resonance frequency shif... In this study,an optical fiber-based magnetically-tuned graphene mechanical resonator(GMR)is demonstrated by integrating superparamagnetic iron oxide nanoparticles on the graphene membrane.The resonance frequency shift is achieved by tuning the tension of the graphene membrane with a magnetic field.A resonance frequency tunability of 23 kHz using a 100 mT magnetic field is achieved.The device provides a new way to tune a GMR with a non-contact force.It could also be used for weak magnetic field detection in the future with further improvements in sensitivity. 展开更多
关键词 optical fiber graphene mechanical resonator magnetically tuned resonator
原文传递
Optomechanical sensing with on-chip microcavities 被引量:8
16
作者 Yi-Wen Hu Yun-Feng Xiao Yong-Chun Liu Qihuang Gong 《Frontiers of physics》 SCIE CSCD 2013年第5期475-490,共16页
The coupling between optical and mechanical degrees of freedom has been of broad interest for a long time. However, it is only until recently, with the rapid development of optical mierocavity research, that we are ab... The coupling between optical and mechanical degrees of freedom has been of broad interest for a long time. However, it is only until recently, with the rapid development of optical mierocavity research, that we are able to manipulate and utilize this coupling process. When a high Q microeavity couples to a mechanical resonator, they can consolidate into an optomeehanieal system. Benefitting from the unique characteristics offered by optomeehanical coupling, this hybrid system has become a promising platform for ultrasensitive sensors to detect displacement, mass, force and acceleration. In this review, we introduce the basic physical concepts of cavity optomechanies, and describe some of the most typical experimental cavity optomechanical systems for sensing applications. Finally, we discuss the noise arising from various sources and show the potentiality of optomechanical sensing towards quantum-noise-limited detection. 展开更多
关键词 optical microcavities mechanical resonators cavity optomechanics optical sensing integrated photonics
原文传递
Mechanical quality factor of high-overtone bulk acoustic resonator 被引量:2
17
作者 LI Jian LIU Mengwei +2 位作者 LI Junhong MA Jun WANG Chenghao 《Chinese Journal of Acoustics》 CSCD 2016年第3期193-211,共19页
Mechanical quality factor Qm is a key characteristic parameter of High-overtone bulk acoustic resonator(HBAR). The effects of structure parameter(thickness) and perfor?mance parameters(characteristic impedance a... Mechanical quality factor Qm is a key characteristic parameter of High-overtone bulk acoustic resonator(HBAR). The effects of structure parameter(thickness) and perfor?mance parameters(characteristic impedance and mechanical attenuation factor) of substrate,piezoelectric film and electrode constituting HBAR on Qm are carried out. The relationships between Qm and these parameters are obtained by a lumped parameter equivalent circuit instead of distributed parameter equivalent circuit near the resonance frequency, and the an?alytical expressions oi Qm are given. The results show that Qm increases non-monotonically with the continuous increase of the substrate thickness for HBAR with certain piezoelectric film thickness, and it approaches to the substrate material mechanical quality factor as the substrate thickness is large. Qm decreases wavily with the continuous increase of the piezoelectric film thickness for HBAR with certain substrate thickness. Sapphire and YAG with low mechanical loss are appropriate as the substrate to get a larger Qm- The electrode loss must be considered since it can reduce Qm- Compared with Au electrode, A1 electrode with lower loss can obtain higher Qm when the appropriate electrode thickness is selected. In addition, Qm decreases with the increase of frequency. These results provide the theoretical basis for optimizing the parameters of HBAR and show that trade-oflFs between Qm and must be considered in the design because their changes are often inconsistent. 展开更多
关键词 mechanical quality factor of high-overtone bulk acoustic resonator HIGH
原文传递
Soliton molecules for combined mKdV-type bilinear equation
18
作者 Zhang-Xuan Zhao Lu-Wei Zhang +1 位作者 Wei Yang Xue-Ping Cheng 《Communications in Theoretical Physics》 SCIE CAS CSCD 2023年第10期1-9,共9页
Starting from the multi-soliton solutions obtained by the Hirota bilinear method,the soli ton molecule structures for the combined mKdV-type bilinear equation(Dt+∑n=1NαnDx2n+1)f*·f=0 are investigated using the ... Starting from the multi-soliton solutions obtained by the Hirota bilinear method,the soli ton molecule structures for the combined mKdV-type bilinear equation(Dt+∑n=1NαnDx2n+1)f*·f=0 are investigated using the velocity resonance mechanism.The two-soliton molecules of the mKdV-35 equation and the three-soliton molecules of the mKdV-357 equation are specifically demonstrated in this paper.With particular selections of the involved arbitrary parameters,especially the wave numbers,it is confirmed that,besides the usual multi-bright soliton molecules,the multi-dark soliton molecules and the mixed multibright-dark soliton molecules can also be obtained.In addition,we discuss the existence of the multi-soliton molecules for the combined mKdV-type bilinear equation with more higher order nonlinear terms and dispersions.The results demonstrate that when N≥4,the combined mKdVtype bilinear equation no longer admits soliton molecules comprising more than four solitons. 展开更多
关键词 soliton molecule combined mKdV-type bilinear equation Hirota bilinear method velocity resonance mechanism
原文传递
Self-excited oscillation of spinning solar sails utilizing solar radiation pressure 被引量:1
19
作者 Yuki Takao Osamu Mori Jun'ichiro Kawaguchi 《Astrodynamics》 CSCD 2020年第3期177-192,共16页
The present paper proposes a control method to excite spinning solar sail membranes for three-dimensional use.Using optical property switching,the input is given as the change in magnitude of the solar radiation press... The present paper proposes a control method to excite spinning solar sail membranes for three-dimensional use.Using optical property switching,the input is given as the change in magnitude of the solar radiation pressure.The resonance point of this system varies with the vibration state due to its nonlinearity and the change in equilibrium state.To deal with this,a state feedback control law that automatically tracks the resonance point is developed in the present study.The proposed method enables decentralized control of the actuators on the sail,each of which determines the control input independently using only the information of vibration state.The proposed method is validated using numerical simulations.The results show that the nonlinear system behaves differently from the linear system,and the vibration grows using the decentralized control regardless of resonance point variation. 展开更多
关键词 solar sail solar radiation pressure vibration mode self-excited oscillation mechanical resonance decentralized control
原文传递
Ultra-wide tuning single channel filter based on one-dimensional photonic crystal with an air cavity 被引量:1
20
作者 Xiaodan Zhao Yibiao Yang +3 位作者 Zhihui Chen Yuncai Wang Hongming Fei Xiao Deng 《Journal of Semiconductors》 EI CAS CSCD 2017年第2期26-30,共5页
By inserting an air cavity into a one-dimensional photonic crystal of LiF/GaSb, a tunable filter covering the whole visible range is proposed. Following consideration of the dispersion of the materials, through modula... By inserting an air cavity into a one-dimensional photonic crystal of LiF/GaSb, a tunable filter covering the whole visible range is proposed. Following consideration of the dispersion of the materials, through modulating the thickness of the air cavity, we demonstrate that a single resonant peak can shift from 416.1 to 667.3 nm in the band gap at normal incidence by means of the transfer matrix method. The research also shows that the transmittance of the channel can be maximized when the number of periodic Li F/Ga Sb layers on one side of the air defect layer is equal to that of the other side. When adding a period to both sides respectively, the full width at half maximum of the defect mode is reduced by one order of magnitude. This structure will provide a promising approach to fabricate practical tunable filters in the visible region with ultra-wide tuning range. 展开更多
关键词 photonic crystal filters transfer matrix method single resonant peak ultra-wide tuning range mechanical modulation
原文传递
上一页 1 2 下一页 到第
使用帮助 返回顶部