Planar and curved microlens arrays(MLAs)are the key components of miniaturized microoptical systems.In order to meet the requirements for advanced and multipurpose applications in microoptical field,a simple manufactu...Planar and curved microlens arrays(MLAs)are the key components of miniaturized microoptical systems.In order to meet the requirements for advanced and multipurpose applications in microoptical field,a simple manufacturing method is urgently required for fabricating MLAs with unique properties,such as waterproofness and variable field-of-view(FOV)imaging.Such properties are beneficial for the production of advanced artificial compound eyes for the significant applications in complex microcavity environments with high humidity,for instance,miniature medical endoscopy.However,the simple and effective fabrication of advanced artificial compound eyes still presents significant challenges.In this paper,bioinspired by the natural superhydrophobic surface of lotus leaf,we propose a novel method for the fabrication of waterproof artificial compound eyes.Electrohydrodynamic jet printing was used to fabricate hierarchical MLAs and nanolens arrays(NLAs)on polydimethylsiloxane film.The flexible film of MLAs hybridized with NLAs exhibited excellent superhydrophobic property with a water contact angle of 158°.The MLAs film was deformed using a microfluidics chip to create artificial compound eyes with variable FOV,which ranged from 0°to 160°.展开更多
Pantograph system of high-speed trains become significant source of aerodynamic noise when travelling speed exceeds 300 km/h. In this paper, a hybrid method of non-linear acoustic solver (NLAS) and Ffowcs Williams-H...Pantograph system of high-speed trains become significant source of aerodynamic noise when travelling speed exceeds 300 km/h. In this paper, a hybrid method of non-linear acoustic solver (NLAS) and Ffowcs Williams-Hawkings (FW-H) acoustic analogy is used to predict the aerodynamic noise of pantograph system in this speed range. When the simulation method is validated by a benchmark problem of flows around a cylinder of finite span, we calculate the near flow field and far acoustic field surrounding the pantograph system. And then, the frequency spectra and acoustic attenuation with distance are analyzed, showing that the pantograph system noise is a typical broadband one with most acoustic power restricted in the medium-high frequency range from 200 Hz to 5 kHz. The aerodynamic noise of pantograph systems radiates outwards in the form of spherical waves in the far field. Analysis of the overall sound pressure level (OASPL) at different speeds exhibits that the acoustic power grows approximately as the 4th power of train speed. The comparison of noise reduction effects for four types of pantograph covers demonstrates that only case 1 can lessen the total noise by about 3 dB as baffles on both sides can shield sound wave in the spanwise direction. The covers produce additional aerodynamic noise themselves in the other three cases and lead to the rise of OASPLs.展开更多
随着Polymorphic蠕虫变形技术的不断发展,如何快速有效地提取其特征是入侵检测中特征提取领域的一个重要研究方向。采用基于模式的特征提取算法NLA(Normalized Local Alignment),通过对多个可疑Polymorphic蠕虫流量进行序列比对,自动提...随着Polymorphic蠕虫变形技术的不断发展,如何快速有效地提取其特征是入侵检测中特征提取领域的一个重要研究方向。采用基于模式的特征提取算法NLA(Normalized Local Alignment),通过对多个可疑Polymorphic蠕虫流量进行序列比对,自动提取高相似度公共子序列,以向量的形式构造蠕虫特征。实验结果表明该算法在误报率和漏报率方面均优于传统算法。展开更多
Quantum illumination, that is, quantum target detection, is to detect the potential target with two-mode quan- tum entangled state. For a given transmitted energy, the quantum illumination can achieve a target-detecti...Quantum illumination, that is, quantum target detection, is to detect the potential target with two-mode quan- tum entangled state. For a given transmitted energy, the quantum illumination can achieve a target-detection probability of error much lower than the illumination scheme without entanglement. We investigate the useful- ness of noiseless linear amplification (NLA) for quantum illumination. Our result shows that NLA can help to substantially reduce the number of quantum entangled states collected for joint measurement of multi-copy quan- tum state. Our analysis on the NLA-assisted scheme could help to develop more efficient schemes for quantum illumination.展开更多
Noiseless linear amplification (NLA), first proposed by Ralpha et al., is a nondeterministic amplification process which gives gain to the Fock state |n) → gn|n), with g being the amplification gain. We here gi...Noiseless linear amplification (NLA), first proposed by Ralpha et al., is a nondeterministic amplification process which gives gain to the Fock state |n) → gn|n), with g being the amplification gain. We here give a general frame- work for improving the NLA scheme with arbitrary general local unitary operations. We derive the improvement in the amplification gain in 0 1 photon subspace. In particular, we study if the local unitary is composed of sin- gle mode squeezing and coherent displacement operation. Finally, numerical simulations show that local unitary operation could give a further enhancement in the amplification gain as well as the success probability, making the NLA more feasible in future optic quantum communications.展开更多
Approved by the State Planning Commission in 1989, the National Laboratory of Acoustics (NLA) was officially set up at the Chinese Academy of Sciences (CAS) in 1990. Since then, NLA has been open to the scientists fro...Approved by the State Planning Commission in 1989, the National Laboratory of Acoustics (NLA) was officially set up at the Chinese Academy of Sciences (CAS) in 1990. Since then, NLA has been open to the scientists from home and abroad. The director of NLA is Prof. Zhang Renbe, a CAS member and member of the International Commission on Acoustics (ICA). The chairman of the NLA Academic Committee is Prof. Hou Ziqiang.展开更多
基金The authors wish to acknowledge the funding provided by the National Natural Science Foundation of China(Grant Nos.61727811,61703395,91748212,U1613220,and 61821005)the Scientific Instrument Developing Project of the Chinese Academy of Sciences(Grant No.YJKYYQ20180027)+2 种基金the External Cooperation Program of the Chinese Academy of Sciences(Grant No.173321KYSB20170015)Youth Innovation Promotion Association of the Chinese Academy of Sciences(Grant No.Y201943)LiaoNing Revitalization Talents Program(Grant No.XLYC1807006).
文摘Planar and curved microlens arrays(MLAs)are the key components of miniaturized microoptical systems.In order to meet the requirements for advanced and multipurpose applications in microoptical field,a simple manufacturing method is urgently required for fabricating MLAs with unique properties,such as waterproofness and variable field-of-view(FOV)imaging.Such properties are beneficial for the production of advanced artificial compound eyes for the significant applications in complex microcavity environments with high humidity,for instance,miniature medical endoscopy.However,the simple and effective fabrication of advanced artificial compound eyes still presents significant challenges.In this paper,bioinspired by the natural superhydrophobic surface of lotus leaf,we propose a novel method for the fabrication of waterproof artificial compound eyes.Electrohydrodynamic jet printing was used to fabricate hierarchical MLAs and nanolens arrays(NLAs)on polydimethylsiloxane film.The flexible film of MLAs hybridized with NLAs exhibited excellent superhydrophobic property with a water contact angle of 158°.The MLAs film was deformed using a microfluidics chip to create artificial compound eyes with variable FOV,which ranged from 0°to 160°.
基金supported by the National Key Technology R&D Program (2009BAG12A03)Innovation Project of Chinese Academy of Sciences of China (KJCX2-EW-L02-1)
文摘Pantograph system of high-speed trains become significant source of aerodynamic noise when travelling speed exceeds 300 km/h. In this paper, a hybrid method of non-linear acoustic solver (NLAS) and Ffowcs Williams-Hawkings (FW-H) acoustic analogy is used to predict the aerodynamic noise of pantograph system in this speed range. When the simulation method is validated by a benchmark problem of flows around a cylinder of finite span, we calculate the near flow field and far acoustic field surrounding the pantograph system. And then, the frequency spectra and acoustic attenuation with distance are analyzed, showing that the pantograph system noise is a typical broadband one with most acoustic power restricted in the medium-high frequency range from 200 Hz to 5 kHz. The aerodynamic noise of pantograph systems radiates outwards in the form of spherical waves in the far field. Analysis of the overall sound pressure level (OASPL) at different speeds exhibits that the acoustic power grows approximately as the 4th power of train speed. The comparison of noise reduction effects for four types of pantograph covers demonstrates that only case 1 can lessen the total noise by about 3 dB as baffles on both sides can shield sound wave in the spanwise direction. The covers produce additional aerodynamic noise themselves in the other three cases and lead to the rise of OASPLs.
文摘随着Polymorphic蠕虫变形技术的不断发展,如何快速有效地提取其特征是入侵检测中特征提取领域的一个重要研究方向。采用基于模式的特征提取算法NLA(Normalized Local Alignment),通过对多个可疑Polymorphic蠕虫流量进行序列比对,自动提取高相似度公共子序列,以向量的形式构造蠕虫特征。实验结果表明该算法在误报率和漏报率方面均优于传统算法。
基金Supported by the National Natural Science Foundation of China under Grant Nos U1304613,11204197,11204379 and 11074244the National Basic Research Program of China under Grant No 2011CBA00200the Doctor Science Research Foundation from the Ministry of Education of China under Grant No 20113402110059
文摘Quantum illumination, that is, quantum target detection, is to detect the potential target with two-mode quan- tum entangled state. For a given transmitted energy, the quantum illumination can achieve a target-detection probability of error much lower than the illumination scheme without entanglement. We investigate the useful- ness of noiseless linear amplification (NLA) for quantum illumination. Our result shows that NLA can help to substantially reduce the number of quantum entangled states collected for joint measurement of multi-copy quan- tum state. Our analysis on the NLA-assisted scheme could help to develop more efficient schemes for quantum illumination.
基金Supported by the National Natural Science Foundation of China under Grant Nos 11304013,11204197,11204379 and 11074244the National Basic Research Program of China under Grant No 2011CBA00200+1 种基金the Doctor Science Research Foundation of Ministry of Education of China under Grant No 20113402110059Civil Aerospace 2013669
文摘Noiseless linear amplification (NLA), first proposed by Ralpha et al., is a nondeterministic amplification process which gives gain to the Fock state |n) → gn|n), with g being the amplification gain. We here give a general frame- work for improving the NLA scheme with arbitrary general local unitary operations. We derive the improvement in the amplification gain in 0 1 photon subspace. In particular, we study if the local unitary is composed of sin- gle mode squeezing and coherent displacement operation. Finally, numerical simulations show that local unitary operation could give a further enhancement in the amplification gain as well as the success probability, making the NLA more feasible in future optic quantum communications.
文摘Approved by the State Planning Commission in 1989, the National Laboratory of Acoustics (NLA) was officially set up at the Chinese Academy of Sciences (CAS) in 1990. Since then, NLA has been open to the scientists from home and abroad. The director of NLA is Prof. Zhang Renbe, a CAS member and member of the International Commission on Acoustics (ICA). The chairman of the NLA Academic Committee is Prof. Hou Ziqiang.
