A slow evaporation solution approach was used to create high-quality single crystals of 2-(3-aminopyridinium-1-yl)-3-carboxyproponate monohydrate (3ACPM). The single crystal X-ray diffraction was used to determine the crystal system and lattice characteristics. Software called Krystal Shaper was used to mimic the morphology of the 3ACPM. To evaluate the optical transmittance, UV-vis spectral analysis was used. The Nd:YAG laser was used to assess the laser-induced surface damage threshold (LISDT) of 3ACPM single crystal. The presence of second harmonic generation (SHG) was evaluated using the Kurtz-Perry powder method. Full Text: PDF References Y. Zhang, H. Li, B. Xi, Y. Che,vJ. Zheng, "Growth and characterization of l-histidine nitrate single crystal, a promising semiorganic NLO material", Mater. Chem. Phys. 108, 192 (2008), CrossRef S. Draguta, M.S. Fonari, A.E. Masunov, J. Zazueta, S. Sullivan, M.Y. Antipin, T.V. Timofeeva, "New acentric materials constructed from aminopyridines and 4-nitrophenol", Cryst. Eng. Comm. 15, 4700 (2013) CrossRef G. Peramaiyan, R. Mohan Kumar, "Nonlinear optical and laser damage threshold studies of an ammonium p-toluenesulfonate crystal", Appl. Phys. A 119, 707 (2015), CrossRef G.M. Corrales, D. Morales-Morales,S. Hernandez-Ortega, J.J. Campos-Gaxiolaa, A. Cruz Enrıquez, "2-(3-Aminopyridinium-1-yl)-3-carboxypropanoate monohydrate", Acta Cryst. E68, o853 (2012), CrossRef S.K. Kurtz, T.T. Perry, "A Powder Technique for the Evaluation of Nonlinear Optical Materials", J. Appl. Phys. 39, 3798 (1968), CrossRef S. Panchapakesan, K. Subramani, B.Srinivasan, "Growth, characterization and quantum chemical studies of an organic single crystal: 3-Aminopyridine 4-Nitrophenol for opto-electronic applications", J. Mater. Sci: Mater. Electron. 28, 5754 (2017), CrossRef
采用慢蒸发溶液法制备了高质量的2-(3-氨基吡啶-1-基)-3-羧酸一水合物(3ACPM)单晶。采用单晶x射线衍射法测定了晶体体系和晶格特征。crystal Shaper软件被用来模拟3ACPM的形态。采用紫外-可见光谱法测定其透光率。采用Nd:YAG激光对3ACPM单晶的激光诱导表面损伤阈值(LISDT)进行了评估。采用Kurtz-Perry粉末法对二次谐波产生(SHG)进行了评价。张勇,李红华,奚斌,车勇。郑,“一种有前途的半有机NLO材料-硝酸l-组氨酸单晶的生长和表征”,高分子学报。化学。陈志强,陈志强,陈志强,陈志强,陈志强,陈志强,“氨基吡啶和硝基苯酚合成的新型非中心材料”,高分子学报,2008,32(6)。Eng。陈晓明,陈晓明,“对甲苯磺酸铵晶体的非线性光学和激光损伤阈值研究”,中国化工大学学报(自然科学版),2013。理论物理。中国科学院学报,1999,707(2015),交叉文献[j]。Hernandez-Ortega, J.J. Campos-Gaxiolaa, A. Cruz Enrıquez,“2-(3-氨基吡啶-1-基)-3-羧基丙烷酸一水合物”,晶体学报。张晓明,张晓明,“一种用于非线性光学材料性能评价的粉末技术”,光学学报,2012(6)。“有机单晶:3-氨基吡啶- 4-硝基苯酚的生长、表征和量子化学研究”,物理学报,39,37 (1968),CrossRef S. Panchapakesan, K. Subramani, B.Srinivasan,“光电应用”,J. Mater。科学:板牙。电子学报,28,5754(2017),交叉参考
{"title":"Development and Evaluation of an Efficient Second Order Non-Linear Optical Single Crystal – 2-(3-Aminopyridinium-1-yl)-3-Carboxy-Proponate Monohydrate","authors":"Saravana Kumar G, Jeyalaxmi M","doi":"10.4302/plp.v15i3.1196","DOIUrl":"https://doi.org/10.4302/plp.v15i3.1196","url":null,"abstract":"A slow evaporation solution approach was used to create high-quality single crystals of 2-(3-aminopyridinium-1-yl)-3-carboxyproponate monohydrate (3ACPM). The single crystal X-ray diffraction was used to determine the crystal system and lattice characteristics. Software called Krystal Shaper was used to mimic the morphology of the 3ACPM. To evaluate the optical transmittance, UV-vis spectral analysis was used. The Nd:YAG laser was used to assess the laser-induced surface damage threshold (LISDT) of 3ACPM single crystal. The presence of second harmonic generation (SHG) was evaluated using the Kurtz-Perry powder method. Full Text: PDF References Y. Zhang, H. Li, B. Xi, Y. Che,vJ. Zheng, \"Growth and characterization of l-histidine nitrate single crystal, a promising semiorganic NLO material\", Mater. Chem. Phys. 108, 192 (2008), CrossRef S. Draguta, M.S. Fonari, A.E. Masunov, J. Zazueta, S. Sullivan, M.Y. Antipin, T.V. Timofeeva, \"New acentric materials constructed from aminopyridines and 4-nitrophenol\", Cryst. Eng. Comm. 15, 4700 (2013) CrossRef G. Peramaiyan, R. Mohan Kumar, \"Nonlinear optical and laser damage threshold studies of an ammonium p-toluenesulfonate crystal\", Appl. Phys. A 119, 707 (2015), CrossRef G.M. Corrales, D. Morales-Morales,S. Hernandez-Ortega, J.J. Campos-Gaxiolaa, A. Cruz Enrıquez, \"2-(3-Aminopyridinium-1-yl)-3-carboxypropanoate monohydrate\", Acta Cryst. E68, o853 (2012), CrossRef S.K. Kurtz, T.T. Perry, \"A Powder Technique for the Evaluation of Nonlinear Optical Materials\", J. Appl. Phys. 39, 3798 (1968), CrossRef S. Panchapakesan, K. Subramani, B.Srinivasan, \"Growth, characterization and quantum chemical studies of an organic single crystal: 3-Aminopyridine 4-Nitrophenol for opto-electronic applications\", J. Mater. Sci: Mater. Electron. 28, 5754 (2017), CrossRef","PeriodicalId":20055,"journal":{"name":"Photonics Letters of Poland","volume":"26 1","pages":"0"},"PeriodicalIF":0.0,"publicationDate":"2023-09-30","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"136343040","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Optical fiber sensors using low-coherence interferometry require processing of the output spectrum or interferogram to determine the instantaneous value of the measured quantity, such as temperature, quickly and accurately. Methods based on machine learning are a good candidate for this application. The application of four such methods in an optical fiber sensor of temperature is demonstrated. Using a ZnO-coated sensing interferometer and spectral detection, the sensor is intended for monitoring lithium-ion rechargeable batteries. While the performance of all methods was good, some of them seem to be better suited for this application. Full Text: PDF References B. Wrålsen et al., "Circular business models for lithium-ion batteries - Stakeholders, barriers, and drivers", J. Clean. Prod. 317, 128393 (2021), CrossRef T. Deng et al., "Measuring smartphone usage and task switching with log tracking and self-reports", Mobile Media & Communication 7, 3 (2019), CrossRef Smartphone Subscriptions Worldwide 2027. Statista, DirectLink T. Jerzyński, G. V. Stimson, H. Shapiro, G. Król., "Estimation of the global number of e-cigarette users in 2020", Harm Reduct. J. 18, 109 (2021). CrossRef Battery chemistries, DirectLink Y. Chen, et al., "A review of lithium-ion battery safety concerns: The issues, strategies, and testing standards", J. Energy Chem 59, 83 (2021), CrossRef T. Görgülü, M. Torun, A. Olgun, "A cause of severe thigh injury: Battery explosion", Ann. Med. Surg. 5, 49 (2016) CrossRef T. Maraqa et al., "Too Hot for Your Pocket! Burns From E-Cigarette Lithium Battery Explosions: A Case Series", J. Burn Care Res. 39, 1043 (2018). CrossRef Y. Chen et al., "A review of lithium-ion battery safety concerns: The issues, strategies, and testing standards", J. Energy Chem. 59, 83 (2021), CrossRef Q. Wang et al., "Thermal runaway caused fire and explosion of lithium ion battery", J. Power Sources 208, 210 (2012), CrossRef P. V. Chombo, L. Yossapong, "A review of safety strategies of a Li-ion battery", J. Power Sources 478, 228649 (2020), CrossRef P. Listewnik, M. Bechelany, J. B. Jasinski, M. Szczerska, "ZnO ALD-Coated Microsphere-Based Sensors for Temperature Measurements", Sensors 20, 4689 (2020), CrossRef M. Szczerska, "Temperature Sensors Based on Polymer Fiber Optic Interferometer", Chemosensors 10, 228 (2022), CrossRef M. Kruczkowski et al., "redictions of cervical cancer identification by photonic method combined with machine learning", Sci. Rep. 12, 3762 (2022), CrossRef
采用低相干干涉测量的光纤传感器需要对输出光谱或干涉图进行处理,以快速准确地确定被测量(如温度)的瞬时值。基于机器学习的方法是这种应用的一个很好的候选。介绍了这四种方法在光纤温度传感器中的应用。该传感器采用zno涂层传感干涉仪和光谱检测,用于监测锂离子可充电电池。虽然所有方法的性能都很好,但其中一些方法似乎更适合这个应用程序。B. wratlsen等,“锂离子电池的循环商业模式——利益相关者、障碍和驱动因素”,J. Clean。317,128393 (2021), CrossRef . Deng et al.,“用日志跟踪和自我报告测量智能手机使用和任务切换”,移动媒体&;通信7,3 (2019),CrossRef全球智能手机订阅2027。Statista, DirectLink T. Jerzyński, g.v. Stimson, H. Shapiro, G. Król。《2020年全球电子烟用户数量估计》,《减少危害》。J. 18, 109(2021)。陈毅,等,“锂离子电池的安全问题:问题、策略和测试标准”,能源化学学报,59 (2021),CrossRef . Görgülü, M. Torun, A. Olgun,“严重大腿损伤的原因:电池爆炸”,安。医学外科学,2016,49 (2016)CrossRef T. Maraqa et al.,“太热了!电子烟锂电池爆炸致烧伤的研究进展[j] .中国烧伤防治杂志,2018,34(6)。CrossRef . Chen等人,“锂离子电池安全问题综述:CrossRef P. V. Chombo, L. Yossapong,“一种锂离子电池的安全策略综述”,J. Bechelany, J. B. Jasinski, M. Szczerska,“基于ZnO ald涂层的微球温度测量传感器”,J.能源化学,59,83 (2021),CrossRef Q. Wang等,“热失控引起的锂离子电池火灾和爆炸”,J. Power Sources, 208, 210 (2012), CrossRef P. V. Chombo, L. Yossapong,“J. Power Sources, 478, 228649(2020)”,CrossRef P. Listewnik, M. Bechelany, J. B. Jasinski, M. Szczerska,“基于ZnO ald涂层的微球温度测量传感器”,传感器20,4689(2020)。CrossRef M. Szczerska,“基于聚合物光纤干涉仪的温度传感器”,化学传感器10,228 (2022),CrossRef M. Kruczkowski等,“结合机器学习的光子方法对宫颈癌识别的预测”,Sci。众议员12,3762(2022),交叉参考
{"title":"Application of fiber optic sensors using Machine Learning algorithms for temperature measurement of lithium-ion batteries","authors":"Kacper Cierpiak, Marta Szczerska, Pawel Wierzba","doi":"10.4302/plp.v15i3.1207","DOIUrl":"https://doi.org/10.4302/plp.v15i3.1207","url":null,"abstract":"Optical fiber sensors using low-coherence interferometry require processing of the output spectrum or interferogram to determine the instantaneous value of the measured quantity, such as temperature, quickly and accurately. Methods based on machine learning are a good candidate for this application. The application of four such methods in an optical fiber sensor of temperature is demonstrated. Using a ZnO-coated sensing interferometer and spectral detection, the sensor is intended for monitoring lithium-ion rechargeable batteries. While the performance of all methods was good, some of them seem to be better suited for this application. Full Text: PDF References B. Wrålsen et al., \"Circular business models for lithium-ion batteries - Stakeholders, barriers, and drivers\", J. Clean. Prod. 317, 128393 (2021), CrossRef T. Deng et al., \"Measuring smartphone usage and task switching with log tracking and self-reports\", Mobile Media & Communication 7, 3 (2019), CrossRef Smartphone Subscriptions Worldwide 2027. Statista, DirectLink T. Jerzyński, G. V. Stimson, H. Shapiro, G. Król., \"Estimation of the global number of e-cigarette users in 2020\", Harm Reduct. J. 18, 109 (2021). CrossRef Battery chemistries, DirectLink Y. Chen, et al., \"A review of lithium-ion battery safety concerns: The issues, strategies, and testing standards\", J. Energy Chem 59, 83 (2021), CrossRef T. Görgülü, M. Torun, A. Olgun, \"A cause of severe thigh injury: Battery explosion\", Ann. Med. Surg. 5, 49 (2016) CrossRef T. Maraqa et al., \"Too Hot for Your Pocket! Burns From E-Cigarette Lithium Battery Explosions: A Case Series\", J. Burn Care Res. 39, 1043 (2018). CrossRef Y. Chen et al., \"A review of lithium-ion battery safety concerns: The issues, strategies, and testing standards\", J. Energy Chem. 59, 83 (2021), CrossRef Q. Wang et al., \"Thermal runaway caused fire and explosion of lithium ion battery\", J. Power Sources 208, 210 (2012), CrossRef P. V. Chombo, L. Yossapong, \"A review of safety strategies of a Li-ion battery\", J. Power Sources 478, 228649 (2020), CrossRef P. Listewnik, M. Bechelany, J. B. Jasinski, M. Szczerska, \"ZnO ALD-Coated Microsphere-Based Sensors for Temperature Measurements\", Sensors 20, 4689 (2020), CrossRef M. Szczerska, \"Temperature Sensors Based on Polymer Fiber Optic Interferometer\", Chemosensors 10, 228 (2022), CrossRef M. Kruczkowski et al., \"redictions of cervical cancer identification by photonic method combined with machine learning\", Sci. Rep. 12, 3762 (2022), CrossRef","PeriodicalId":20055,"journal":{"name":"Photonics Letters of Poland","volume":"12 1","pages":"0"},"PeriodicalIF":0.0,"publicationDate":"2023-09-30","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"136342913","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Saraswathi R.C, Lavanya Maruthasalam, Udhayakumar M, Jaroszewicz Z
Tight focusing properties of azimuthally polarized Lorentz Gaussian vortex beam through a dielectric interface are numerically studied by vector diffraction theory. The focusing properties, such as spot size, depth of focus, and maximum intensity position, are numerically calculated by properly manipulating the Lorentz parameter with/without annular obstruction values. Thus, using annular obstruction, one can generate a highly confined focal spot of long focal depth when using an azimuthally polarized Lorentz Gaussian vortex beam. Full Text: PDF References A. Ashkin et al., "Observation of a single-beam gradient force optical trap for dielectric particles", Opt. Lett. 11, 288 (1986). CrossRef A. Ambardekar, Y.Q. Li, "Optical levitation and manipulation of stuck particles with pulsed optical tweezers", Opt. Lett. 30, 1797 (2005). CrossRef P. Zemánek, C.J. Foot, "Atomic dipole trap formed by blue detuned strong Gaussian standing wave", Opt. Commun. 146, 119(1998). CrossRef S.M. Block et al., "Bead movement by single kinesin molecules studied with optical tweezers", Nature 348, 348 (1990). CrossRef D.E. Smithet al., "The bacteriophage φ29 portal motor can package DNA against a large internal force", Nature 413, 748 (2001). CrossRef L. Oroszi et al., "Direct Measurement of Torque in an Optical Trap and Its Application to Double-Strand DNA", Phys. Rev. Lett. 97, 058301 (2006). CrossRef D.P. Biss, T.G. Brown, "Cylindrical vector beam focusing through a dielectric interface", Opt. Express 9, 490 (2001). CrossRef P. Török et al., "Electromagnetic diffraction of light focused through a planar interface between materials of mismatched refractive indices: structure of the electromagnetic field. I", J. Opt. Soc. Am. A 12, 2136 (1995). CrossRef S.H. Wiersma et al., "Comparison of different theories for focusing through a plane interface", J. Opt. Soc. Am. A 14, 1482 (1997). CrossRef L.E. Helseth, "Roles of polarization, phase and amplitude in solid immersion lens systems", Opt. Commun. 191, 161 (2001). CrossRef P. Zhou et al., "Propagation properties of a Lorentz beam array", Appl. Opt. 49, 2497 (2010). CrossRef O.E. Gawhary, S. Severini, "Lorentz beams and symmetry properties in paraxial optics", J. Opt. A: Pure Appl Opt 8, 409 (2006). CrossRef J. Yang et al., "Focusing of diode laser beams: a partially coherent Lorentz model", Proc. SPIE 6824, 68240 A (2007). CrossRef O.E. Gawhary, S. Severini, "Lorentz beams as a basis for a new class of rectangularly symmetric optical fields", Opt. Commun. 269, 274 (2007). CrossRef H. Yu, L. Xiong, B. Lü, "Nonparaxial Lorentz and Lorentz–Gauss beams", Optik 121,1455(2010). CrossRef Z. Zhang, J. Pu, X. Wang, "Tight Focusing of Radially and Azimuthally Polarized Vortex Beams through a Dielectric Interface", Chin. Phys. Lett. 25, 1664 (2008). CrossRef
利用矢量衍射理论,对方位偏振洛伦兹高斯涡旋光束通过介质界面的紧密聚焦特性进行了数值研究。通过适当地控制洛伦兹参数,计算出光斑大小、聚焦深度和最大强度位置等聚焦特性。因此,当使用方位极化洛伦兹高斯涡旋光束时,使用环形障碍物可以产生长焦深的高度受限焦斑。a . Ashkin et al.,“介质粒子单束梯度力光阱的观测”,光学学报,11,288(1986)。李永强,“脉冲光镊对悬浮粒子的光学控制”,光学学报,1997,30(2005)。CrossRef P. Zemánek, C.J. Foot,“蓝色失谐强高斯驻波形成的原子偶极子阱”,光学学报,146,119(1998)。CrossRef S.M. Block et al.,“用光学镊子研究单驱动蛋白分子的头部运动”,Nature 348, 348(1990)。CrossRef D.E. Smithet al.,“φ29噬菌体入口电机可以包装DNA以抵抗巨大的内力”,Nature 413, 748(2001)。CrossRef L. Oroszi et al.,“光阱中扭矩的直接测量及其在双链DNA中的应用”,物理学报。Rev. Lett. 97, 058301(2006)。CrossRef D.P. Biss, T.G. Brown,“通过介质界面聚焦的圆柱形矢量光束”,光子学报,9(2001)。CrossRef . Török等人,“光通过折射率不匹配的材料之间的平面界面聚焦的电磁衍射:电磁场的结构。”I”,J. Opt. Soc。点。A 12, 2136(1995)。CrossRef S.H. Wiersma et al.,“平面界面聚焦不同理论的比较”,J. Opt. Soc。点。A 14,1482(1997)。CrossRef L.E. Helseth,“固体浸没透镜系统中偏振、相位和振幅的作用”,光学学报,1999,16(2001)。CrossRef P. Zhou et al.,“Lorentz波束阵列的传输特性”,applied。选择49,2497(2010)。* * * * *,“近轴光学中洛伦兹光束的对称特性”,光学学报,8(6)(2006)。CrossRef J. Yang等,“二极管激光光束聚焦:部分相干的Lorentz模型”,中国激光工程学报(ei), 2007年第6期。CrossRef e . e . Gawhary, S. Severini,“基于Lorentz光束的新型矩形对称光场”,光学学报,269,274(2007)。[交叉参考]于辉,熊丽丽,B. Lü,“非准轴洛伦兹与洛伦兹-高斯光束”,光学学报,121,1455(2010)。张志强,王晓东,“涡旋光束在介质界面上的紧密聚焦”,中国。理论物理。左25,1664(2008)。CrossRef
{"title":"Focusing properties of Azimuthally Polarized Lorentz Gauss Vortex Beam through a Dielectric Interface","authors":"Saraswathi R.C, Lavanya Maruthasalam, Udhayakumar M, Jaroszewicz Z","doi":"10.4302/plp.v15i3.1200","DOIUrl":"https://doi.org/10.4302/plp.v15i3.1200","url":null,"abstract":"Tight focusing properties of azimuthally polarized Lorentz Gaussian vortex beam through a dielectric interface are numerically studied by vector diffraction theory. The focusing properties, such as spot size, depth of focus, and maximum intensity position, are numerically calculated by properly manipulating the Lorentz parameter with/without annular obstruction values. Thus, using annular obstruction, one can generate a highly confined focal spot of long focal depth when using an azimuthally polarized Lorentz Gaussian vortex beam. Full Text: PDF References A. Ashkin et al., \"Observation of a single-beam gradient force optical trap for dielectric particles\", Opt. Lett. 11, 288 (1986). CrossRef A. Ambardekar, Y.Q. Li, \"Optical levitation and manipulation of stuck particles with pulsed optical tweezers\", Opt. Lett. 30, 1797 (2005). CrossRef P. Zemánek, C.J. Foot, \"Atomic dipole trap formed by blue detuned strong Gaussian standing wave\", Opt. Commun. 146, 119(1998). CrossRef S.M. Block et al., \"Bead movement by single kinesin molecules studied with optical tweezers\", Nature 348, 348 (1990). CrossRef D.E. Smithet al., \"The bacteriophage φ29 portal motor can package DNA against a large internal force\", Nature 413, 748 (2001). CrossRef L. Oroszi et al., \"Direct Measurement of Torque in an Optical Trap and Its Application to Double-Strand DNA\", Phys. Rev. Lett. 97, 058301 (2006). CrossRef D.P. Biss, T.G. Brown, \"Cylindrical vector beam focusing through a dielectric interface\", Opt. Express 9, 490 (2001). CrossRef P. Török et al., \"Electromagnetic diffraction of light focused through a planar interface between materials of mismatched refractive indices: structure of the electromagnetic field. I\", J. Opt. Soc. Am. A 12, 2136 (1995). CrossRef S.H. Wiersma et al., \"Comparison of different theories for focusing through a plane interface\", J. Opt. Soc. Am. A 14, 1482 (1997). CrossRef L.E. Helseth, \"Roles of polarization, phase and amplitude in solid immersion lens systems\", Opt. Commun. 191, 161 (2001). CrossRef P. Zhou et al., \"Propagation properties of a Lorentz beam array\", Appl. Opt. 49, 2497 (2010). CrossRef O.E. Gawhary, S. Severini, \"Lorentz beams and symmetry properties in paraxial optics\", J. Opt. A: Pure Appl Opt 8, 409 (2006). CrossRef J. Yang et al., \"Focusing of diode laser beams: a partially coherent Lorentz model\", Proc. SPIE 6824, 68240 A (2007). CrossRef O.E. Gawhary, S. Severini, \"Lorentz beams as a basis for a new class of rectangularly symmetric optical fields\", Opt. Commun. 269, 274 (2007). CrossRef H. Yu, L. Xiong, B. Lü, \"Nonparaxial Lorentz and Lorentz–Gauss beams\", Optik 121,1455(2010). CrossRef Z. Zhang, J. Pu, X. Wang, \"Tight Focusing of Radially and Azimuthally Polarized Vortex Beams through a Dielectric Interface\", Chin. Phys. Lett. 25, 1664 (2008). CrossRef","PeriodicalId":20055,"journal":{"name":"Photonics Letters of Poland","volume":"68 1","pages":"0"},"PeriodicalIF":0.0,"publicationDate":"2023-09-30","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"136342926","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
When compared to other enabling technology fields such as Electronic Engineering or Computer Science, Optics and Photonics stands out to be by far the oldest field of research, and yet the one still standing today at the forefront of research, consumer electronics, transformation industry, communication, health, biotech and many more. From solving the mysteries of our universe to the development of the latest smart phones and the fastest internet lines, the field of Optics and Photonics has proven over and over to be at the cornerstone for everything we take for granted today. This field has been associated with many successive market booms, and sometimes also bubbles, but the underlying technology build by its exceptional engineers never gets wasted or lost, providing valuable key building blocks to fuel the “next big thing” Full Text: PDF References��https://money.cnn.com/2001/12/18/technology/q_yearend_telecom DirecLink �https://money.cnn.com/2010/11/09/technology/jdsu_qualcomm/index.htm DirectLink �https://www.forbes.com/global/1999/1129/098_01.html?sh=290252831d0c DirectLink �B. Kress, Applied Digital Optics: From Micro-optics to Nanophotonics (John Wiley 2007). DirectLink �K. Curtis, D. Psaltis, "Cross talk in phase-coded holographic memories", J Opt Soc Am. 10(12), 2547 (1993). CrossRef �W.S. Colburn, B.J. Chang, "Holographic combiners for head up displays", Tech Report No. AFAL-TR-77-110, (1977). DirectLink �J. Kimmel, T. Levola, P. Saarikko, "A novel diffractive backlight concept for mobile displays", J Soc Inf Disp 16(2), (2008). CrossRef �
与电子工程或计算机科学等其他使能技术领域相比,光学和光子学是迄今为止最古老的研究领域,但今天仍然站在研究、消费电子、转型行业、通信、健康、生物技术等领域的最前沿。从解决我们宇宙的奥秘到开发最新的智能手机和最快的互联网线路,光学和光子学领域已经一次又一次地被证明是我们今天认为理所当然的一切的基石。该领域与许多连续的市场繁荣(有时也与泡沫)有关,但其杰出工程师构建的基础技术从未被浪费或丢失,为推动“下一件大事”提供了有价值的关键构建模块。PDF参考资料https://money.cnn.com/2001/12/18/technology/q_yearend_telecom DirectLink https://money.cnn.com/2010/11/09/technology/jdsu_qualcomm/index.htm DirectLink https://www.forbes.com/global/1999/1129/098_01.html?sh=290252831d0c DirectLink B. Kress,应用数字光学:从微光学到纳米光子学(John Wiley 2007)。张晓明,张晓明,“相位编码全息存储器中的串扰”,光学学报,10(12),2547(1993)。CrossRef W.S. Colburn, Chang B.J.,“用于平视显示器的全息组合器”,技术报告编号:afal - tr - 77 - 110,(1977)。J. Kimmel, T. Levola, P. Saarikko,“一种用于移动显示器的新型衍射背光概念”,《半导体学报》16(2),(2008)。CrossRef
{"title":"Optics and Photonics as a strong and resilient field for a successful career development","authors":"B. Kress","doi":"10.4302/plp.v15i2.1223","DOIUrl":"https://doi.org/10.4302/plp.v15i2.1223","url":null,"abstract":"When compared to other enabling technology fields such as Electronic Engineering or Computer Science, Optics and Photonics stands out to be by far the oldest field of research, and yet the one still standing today at the forefront of research, consumer electronics, transformation industry, communication, health, biotech and many more. From solving the mysteries of our universe to the development of the latest smart phones and the fastest internet lines, the field of Optics and Photonics has proven over and over to be at the cornerstone for everything we take for granted today. This field has been associated with many successive market booms, and sometimes also bubbles, but the underlying technology build by its exceptional engineers never gets wasted or lost, providing valuable key building blocks to fuel the “next big thing” Full Text: PDF References\u0000\u0000https://money.cnn.com/2001/12/18/technology/q_yearend_telecom DirecLink \u0000https://money.cnn.com/2010/11/09/technology/jdsu_qualcomm/index.htm DirectLink \u0000https://www.forbes.com/global/1999/1129/098_01.html?sh=290252831d0c DirectLink \u0000B. Kress, Applied Digital Optics: From Micro-optics to Nanophotonics (John Wiley 2007). DirectLink \u0000K. Curtis, D. Psaltis, \"Cross talk in phase-coded holographic memories\", J Opt Soc Am. 10(12), 2547 (1993). CrossRef \u0000W.S. Colburn, B.J. Chang, \"Holographic combiners for head up displays\", Tech Report No. AFAL-TR-77-110, (1977). DirectLink \u0000J. Kimmel, T. Levola, P. Saarikko, \"A novel diffractive backlight concept for mobile displays\", J Soc Inf Disp 16(2), (2008). CrossRef \u0000","PeriodicalId":20055,"journal":{"name":"Photonics Letters of Poland","volume":" ","pages":""},"PeriodicalIF":0.6,"publicationDate":"2023-07-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"45447687","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Nowadays artificial light is often used in horticulture. Proper light composition may have significant impact on plant properties, important from the consumer's point of view. Based on experimental cultivation of thyme, examination of thyme leaves grown under different spectra was performed. Transmissive spectra, colorimetric properties, dry mass yield as well as biometrical properties (shape of leaves) were determined. Attention to the issues of energy efficacy of light sources was also paid. Full Text: PDF References��D.L. DiLaura, K.W. Houser, R.G. Mistrick, G.R. Steffy, The lighting handbook, Illuminating Engineering Society, 2011. DirectLink �CREE Inc, Cree® 2835 LEDs Product family datasheet, (accessed 19 february 2023). CrossRef � DirectLink �M. Gilewski, "The role of light in the plants world", Phot. Lett.Pol., 11, 115 (2019). CrossRef �J. Yan, H. Liu, W. Zhao, Y. Su, "Photon flux calibration of LED in horticulture lighting", Proc. SPIE 12319(2022). CrossRef �B. Purabi, V.K. Venugopalan, R. Nath, P.K. Chakraborty, A. Gaber, W.F. Alsanie, B.M. Raafat, A. Hossain. 2022. "Seed Priming and Foliar Application of Nutrients Influence the Productivity of Relay Grass Pea (Lathyrus sativus L.) through Accelerating the Photosynthetically Active Radiation (PAR) Use Efficiency" Agronomy 12, 1125 (2022). CrossRef �T. Hegemann, J. Balasus, Q. Trinh, A. Herzog, T. Khanh, "Using spectral sensors to determine photosynthetic photon flux density in daylight - A theoretical approach". Light Res. Technol. 54, 429 (2022). CrossRef �R.J. Ritchie, "Modelling photosynthetic photon flux density and maximum potential gross photosynthesis", Photosynthetica 48, 596 (2010). CrossRef �D. Kulpa, A. Wesolowska, P. Jadczak, "Micropropagation and Composition of Essentials Oils in Garden Thyme (Thymus vulgaris L.)" Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 46, 525 (2018). CrossRef �V. R. Affonso, H.R. Bizzo, C.L.S. Lage, A. Sato, "Influence of Growth Regulators in Biomass Production and Volatile Profile of in Vitro Plantlets of Thymus vulgaris L", J. Agric. Food Chem., 57, 6392 (2009) CrossRef �W. Letchamo ,A. Gosselin, "Transpiration, essential oil glands, epicuticular wax and morphology of Thymus vulgaris are influenced by light intensity and water supply", J. Hortic. Sci, 71 (1996). CrossRef �M. Feldzensztajn,, P. Wierzba, A. Mazikowski, "Examination of Spectral Properties of Medicinal Plant Leaves Grown in Different Lighting Conditions Based on Mint Cultivation", Sensors, 21, 4122 (2021) CrossRef �H. Spalholz, P. Perkins-Veazie, R. Hernández, "Impact of sun-simulated white light and varied blue:red spectrums on the growth, morphology, development, and phytochemical content of green- and red-leaf lettuce at different growth stages". Sci. Hortic., 264, 109195 (2020). CrossRef �J.M. Tabbert, H. Schulz, A. Krähmer., "Increased Plant Quality, Greenhouse Productivity and Energy Efficiency with Broad-Spectrum LED Systems: A Case Study for Thyme (Thymus vulgaris L.)", Pl
{"title":"Examination of thyme leaves grown under different spectra","authors":"A. Mazikowski, Mateusz Feldzensztajn","doi":"10.4302/plp.v15i2.1219","DOIUrl":"https://doi.org/10.4302/plp.v15i2.1219","url":null,"abstract":"Nowadays artificial light is often used in horticulture. Proper light composition may have significant impact on plant properties, important from the consumer's point of view. Based on experimental cultivation of thyme, examination of thyme leaves grown under different spectra was performed. Transmissive spectra, colorimetric properties, dry mass yield as well as biometrical properties (shape of leaves) were determined. Attention to the issues of energy efficacy of light sources was also paid. Full Text: PDF References\u0000\u0000D.L. DiLaura, K.W. Houser, R.G. Mistrick, G.R. Steffy, The lighting handbook, Illuminating Engineering Society, 2011. DirectLink \u0000CREE Inc, Cree® 2835 LEDs Product family datasheet, (accessed 19 february 2023). CrossRef \u0000 DirectLink \u0000M. Gilewski, \"The role of light in the plants world\", Phot. Lett.Pol., 11, 115 (2019). CrossRef \u0000J. Yan, H. Liu, W. Zhao, Y. Su, \"Photon flux calibration of LED in horticulture lighting\", Proc. SPIE 12319(2022). CrossRef \u0000B. Purabi, V.K. Venugopalan, R. Nath, P.K. Chakraborty, A. Gaber, W.F. Alsanie, B.M. Raafat, A. Hossain. 2022. \"Seed Priming and Foliar Application of Nutrients Influence the Productivity of Relay Grass Pea (Lathyrus sativus L.) through Accelerating the Photosynthetically Active Radiation (PAR) Use Efficiency\" Agronomy 12, 1125 (2022). CrossRef \u0000T. Hegemann, J. Balasus, Q. Trinh, A. Herzog, T. Khanh, \"Using spectral sensors to determine photosynthetic photon flux density in daylight - A theoretical approach\". Light Res. Technol. 54, 429 (2022). CrossRef \u0000R.J. Ritchie, \"Modelling photosynthetic photon flux density and maximum potential gross photosynthesis\", Photosynthetica 48, 596 (2010). CrossRef \u0000D. Kulpa, A. Wesolowska, P. Jadczak, \"Micropropagation and Composition of Essentials Oils in Garden Thyme (Thymus vulgaris L.)\" Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 46, 525 (2018). CrossRef \u0000V. R. Affonso, H.R. Bizzo, C.L.S. Lage, A. Sato, \"Influence of Growth Regulators in Biomass Production and Volatile Profile of in Vitro Plantlets of Thymus vulgaris L\", J. Agric. Food Chem., 57, 6392 (2009) CrossRef \u0000W. Letchamo ,A. Gosselin, \"Transpiration, essential oil glands, epicuticular wax and morphology of Thymus vulgaris are influenced by light intensity and water supply\", J. Hortic. Sci, 71 (1996). CrossRef \u0000M. Feldzensztajn,, P. Wierzba, A. Mazikowski, \"Examination of Spectral Properties of Medicinal Plant Leaves Grown in Different Lighting Conditions Based on Mint Cultivation\", Sensors, 21, 4122 (2021) CrossRef \u0000H. Spalholz, P. Perkins-Veazie, R. Hernández, \"Impact of sun-simulated white light and varied blue:red spectrums on the growth, morphology, development, and phytochemical content of green- and red-leaf lettuce at different growth stages\". Sci. Hortic., 264, 109195 (2020). CrossRef \u0000J.M. Tabbert, H. Schulz, A. Krähmer., \"Increased Plant Quality, Greenhouse Productivity and Energy Efficiency with Broad-Spectrum LED Systems: A Case Study for Thyme (Thymus vulgaris L.)\", Pl","PeriodicalId":20055,"journal":{"name":"Photonics Letters of Poland","volume":" ","pages":""},"PeriodicalIF":0.6,"publicationDate":"2023-07-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"49346426","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
In this article we summarize our presentations as two representatives from Optica (formerly OSA) at the ceremony celebrating the 15th anniversary of the Photonics Society of Poland. The first presentation provides an update of the dynamic industrial revolution occurring in light science and technologies. In the second presentation, recent activities of Optica in Europe are shown.
{"title":"Contributions to the Jubilee Symposium of the Photonics Society of Poland for its 15th anniversary by Optica","authors":"Claus Roll, U. Woggon","doi":"10.4302/plp.v15i2.1226","DOIUrl":"https://doi.org/10.4302/plp.v15i2.1226","url":null,"abstract":"In this article we summarize our presentations as two representatives from Optica (formerly OSA) at the ceremony celebrating the 15th anniversary of the Photonics Society of Poland. The first presentation provides an update of the dynamic industrial revolution occurring in light science and technologies. In the second presentation, recent activities of Optica in Europe are shown.","PeriodicalId":20055,"journal":{"name":"Photonics Letters of Poland","volume":" ","pages":""},"PeriodicalIF":0.6,"publicationDate":"2023-07-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"45512889","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
We demonstrate experimentally and simultaneously the impact of the Polyimide (PI) coating layer on the coupling and propagation losses of the fabricated SOI slot waveguides at 1550 nm operation wavelength and TE polarization. Full Text: PDF References��P. Dong, Y.K. Chen, G.H. Duan, and D.T. Neilson, "Silicon photonic devices and integrated circuits," Nanophot, 3, 215 (2014). CrossRef �Q. Xu, V.R. Almeida, R.R. Panepucci, M. Lipson, "Experimental demonstration of guiding and confining light in nanometer-size low-refractive-index material," Opt. Lett., 29, 1626 (2004). CrossRef �V.R. Almeida, Q. Xu, C.A. Barrios, M. Lipson, "Guiding and confining light in void nanostructure," Opt. Lett., 29, 1209 (2004). CrossRef �A. Mickelson, "Silicon photonic slot guides for nonlinear optics," 2013 Int. Conf. Microw. Photonics, ICMAP 2013, (2013). CrossRef �A. Martínez et al., "Ultrafast all-optical switching in a silicon-nanocrystal-based silicon slot waveguide at telecom wavelengths," Nano Lett., 10, 1506 (2010). CrossRef �C. Koos et al., "All-optical high-speed signal processing with silicon-organic hybrid slot waveguides," Nat. Photonics., 3, 216 (2009). CrossRef �Y. Li, K. Cui, X. Feng, Y. Huang, F. Liu, and W. Zhang, "Ultralow propagation loss slot-waveguide in high absorption active material," IEEE Photonics J., 6, 3 (2014). CrossRef �Z. Wang, N. Zhu, Y. Tang, L. Wosinski, D. Dai, S. He, "Ultracompact low-loss coupler between strip and slot waveguides," Opt. Lett., 34, 1498 (2009). CrossRef �
实验验证了聚酰亚胺(PI)涂层对1550 nm工作波长下SOI槽波导耦合和传播损耗的影响。全文:PDF董,陈永宽,段光辉,D.T. Neilson,“硅光子器件与集成电路”,纳米材料,3,215(2014)。徐琦,陈晓明,陈晓明,“纳米级低折射率材料的光引导与约束实验研究”,光学学报。, 29, 1626(2004)。许谦,许谦,李立生,“光在纳米结构中的引导和限制”,光学学报,第11期。, 29, 1209(2004)。CrossRef A. Mickelson,“非线性光学的硅光子槽波导”,2013年第2期。相依Microw。光子学报,2013,(2013)。CrossRef a . Martínez等人,“电信波长下基于硅纳米晶体硅槽波导的超快全光开关”,《纳米快报》。中文信息学报,10,1506(2010)。CrossRef C. Koos et al.,“硅有机混合槽波导的全光高速信号处理”,光子学报。, 3, 216(2009)。李艳,崔凯,冯旭,黄艳,刘峰,张伟,“高吸收活性材料的超低传播损耗波导”,光子学报,6(2014)。引用本文:王志强,朱宁,唐勇,王志强,戴德明,何士生,“基于窄带波导和槽波导的超紧凑低损耗耦合器”,光学学报,第11期。中文信息学报,34,1498(2009)。CrossRef
{"title":"Influence of a Polyimide Coating Layer on Losses of Fabricated SOI Slot Waveguides","authors":"M. Salih, A. Mickelson","doi":"10.4302/plp.v15i2.1190","DOIUrl":"https://doi.org/10.4302/plp.v15i2.1190","url":null,"abstract":"We demonstrate experimentally and simultaneously the impact of the Polyimide (PI) coating layer on the coupling and propagation losses of the fabricated SOI slot waveguides at 1550 nm operation wavelength and TE polarization. Full Text: PDF References\u0000\u0000P. Dong, Y.K. Chen, G.H. Duan, and D.T. Neilson, \"Silicon photonic devices and integrated circuits,\" Nanophot, 3, 215 (2014). CrossRef \u0000Q. Xu, V.R. Almeida, R.R. Panepucci, M. Lipson, \"Experimental demonstration of guiding and confining light in nanometer-size low-refractive-index material,\" Opt. Lett., 29, 1626 (2004). CrossRef \u0000V.R. Almeida, Q. Xu, C.A. Barrios, M. Lipson, \"Guiding and confining light in void nanostructure,\" Opt. Lett., 29, 1209 (2004). CrossRef \u0000A. Mickelson, \"Silicon photonic slot guides for nonlinear optics,\" 2013 Int. Conf. Microw. Photonics, ICMAP 2013, (2013). CrossRef \u0000A. Martínez et al., \"Ultrafast all-optical switching in a silicon-nanocrystal-based silicon slot waveguide at telecom wavelengths,\" Nano Lett., 10, 1506 (2010). CrossRef \u0000C. Koos et al., \"All-optical high-speed signal processing with silicon-organic hybrid slot waveguides,\" Nat. Photonics., 3, 216 (2009). CrossRef \u0000Y. Li, K. Cui, X. Feng, Y. Huang, F. Liu, and W. Zhang, \"Ultralow propagation loss slot-waveguide in high absorption active material,\" IEEE Photonics J., 6, 3 (2014). CrossRef \u0000Z. Wang, N. Zhu, Y. Tang, L. Wosinski, D. Dai, S. He, \"Ultracompact low-loss coupler between strip and slot waveguides,\" Opt. Lett., 34, 1498 (2009). CrossRef \u0000","PeriodicalId":20055,"journal":{"name":"Photonics Letters of Poland","volume":" ","pages":""},"PeriodicalIF":0.6,"publicationDate":"2023-07-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"47929873","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
The paper presents the research of a optical fiber current sensor with external conversion (OFCS-EC) as a function of temperature. The sensor was developed in the Department of Optoelectronics. The sensor was tested in the temperature range from 23 °C – 80 °C. For each of the temperatures, the sensitivity was determined on the basis of a sinusoidal waveform. Thus, the linearity of the transfer characteristics was checked. The main purpose of the experiment was to check the limits of sensitivity changes in changing thermal conditions and whether the sensor meets the standards used in the power industry. Full Text: PDF References��M.J. Weber, "CRC Handbook of Laser Science and Technology. Supplement 2: Optical Materials", CRC Press, Boca Raton, FL, USA (1995). CrossRef �S. Ju, Y. Lee, Y.T. Ryu, S.G. Kang, J. Kim, P.R. Watekar, B.H. Kim, Y. Lee, Y.H. An, C.J. Kim, W.T. Han, "Temperature Dependence of Faraday Rotation of Glass Optical Fibers Doped with Quantum Dots of CdSe and CdMnTe", Phys. Status Solidi A, 216: 1800549 (2019). CrossRef �E. Lage, L. Beran, A.U. Quindeau, L. Ohnoutek, M. Kucera, R. Antos, S. R. Sani, G.F. Dionne, M. Veis, C.A. Ross; Temperature-dependent Faraday rotation and magnetization reorientation in cerium-substituted yttrium iron garnet thin films. APL Mater. 5, 036104 (2017). CrossRef �S. Ju, J. Kim, K. Linganna, P.R. Watekar, S.G. Kang, B.H. Kim, S. Boo, Y. Lee, Y.H. An, C.J. Kim, et al. "Temperature and Vibration Dependence of the Faraday Effect of Gd2O3 NPs-Doped Alumino-Silicate Glass Optical Fiber". Sensors, 18, 988 (2018). CrossRef �A. Jeffrey, D. and R.M. Bunch, "Temperature dependence of the Faraday rotation of Hoya FR-5 glass," Appl. Opt. 23, 633 (1984). CrossRef �K. Barczak, J. Juraszek, "Optoelectronic system for detecting short-circuits in low voltage networks", Photon. Lett. Pol, 14, 37 (2022). CrossRef �K. Barczak, K. Mazniewski, "Optical fiber current sensor with external conversion for measurements of low AC electric currents", Proc. SPIE, 10455 (2017). CrossRef �
{"title":"Temperature dependence of optical fiber current sensor with external conversion","authors":"K. Barczak, J. Juraszek","doi":"10.4302/plp.v15i2.1222","DOIUrl":"https://doi.org/10.4302/plp.v15i2.1222","url":null,"abstract":"The paper presents the research of a optical fiber current sensor with external conversion (OFCS-EC) as a function of temperature. The sensor was developed in the Department of Optoelectronics. The sensor was tested in the temperature range from 23 °C – 80 °C. For each of the temperatures, the sensitivity was determined on the basis of a sinusoidal waveform. Thus, the linearity of the transfer characteristics was checked. The main purpose of the experiment was to check the limits of sensitivity changes in changing thermal conditions and whether the sensor meets the standards used in the power industry. Full Text: PDF References\u0000\u0000M.J. Weber, \"CRC Handbook of Laser Science and Technology. Supplement 2: Optical Materials\", CRC Press, Boca Raton, FL, USA (1995). CrossRef \u0000S. Ju, Y. Lee, Y.T. Ryu, S.G. Kang, J. Kim, P.R. Watekar, B.H. Kim, Y. Lee, Y.H. An, C.J. Kim, W.T. Han, \"Temperature Dependence of Faraday Rotation of Glass Optical Fibers Doped with Quantum Dots of CdSe and CdMnTe\", Phys. Status Solidi A, 216: 1800549 (2019). CrossRef \u0000E. Lage, L. Beran, A.U. Quindeau, L. Ohnoutek, M. Kucera, R. Antos, S. R. Sani, G.F. Dionne, M. Veis, C.A. Ross; Temperature-dependent Faraday rotation and magnetization reorientation in cerium-substituted yttrium iron garnet thin films. APL Mater. 5, 036104 (2017). CrossRef \u0000S. Ju, J. Kim, K. Linganna, P.R. Watekar, S.G. Kang, B.H. Kim, S. Boo, Y. Lee, Y.H. An, C.J. Kim, et al. \"Temperature and Vibration Dependence of the Faraday Effect of Gd2O3 NPs-Doped Alumino-Silicate Glass Optical Fiber\". Sensors, 18, 988 (2018). CrossRef \u0000A. Jeffrey, D. and R.M. Bunch, \"Temperature dependence of the Faraday rotation of Hoya FR-5 glass,\" Appl. Opt. 23, 633 (1984). CrossRef \u0000K. Barczak, J. Juraszek, \"Optoelectronic system for detecting short-circuits in low voltage networks\", Photon. Lett. Pol, 14, 37 (2022). CrossRef \u0000K. Barczak, K. Mazniewski, \"Optical fiber current sensor with external conversion for measurements of low AC electric currents\", Proc. SPIE, 10455 (2017). CrossRef \u0000","PeriodicalId":20055,"journal":{"name":"Photonics Letters of Poland","volume":" ","pages":""},"PeriodicalIF":0.6,"publicationDate":"2023-07-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"49660379","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Maruthasalam Lavanya, D. Thiruarul, K. B. Rajesh, Z. Jaroszewicz
Electric and magnetic energy densities as well as energy flux (Poynting vector) for radial variant vector beam focusing through a dielectric interface is analyzed numerically based on vector diffraction theory. The electric and magnetic energy densities are tailored by properly manipulating the radial as well as initial phases to generates novel focal patterns in the focal area. These peculiar properties may find applications in fields such as optical trapping, optical recording, magnetic recording, and magnetic resonance microscopy and semiconductor inspection. Full Text: PDF References��S.N. Khonina, I. Golub, "Optimization of focusing of linearly polarized light ", Opt. Lett. 36 352 (2011). CrossRef �V.V. Kotlyar, S.S. Stafeev, Y. Liu, L. O'Faolain, A. A. Kovalev, "Analysis of the shape of a subwavelength focal spot for the linearly polarized light", Appl. Opt. 52 330 (2013). CrossRef �S. Sen, M.A. Varshney, D. Varshney, "Relativistic Propagation of Linearly/Circularly Polarized Laser Radiation in Plasmas", ISRN Optics. 2013 1 (2013). CrossRef �M. Martínez-Corral, R. Martínez-Cuenca, I. Escobar, G. Saavedra, "Reduction of focus size in tightly focused linearly polarized beams", Appl. Phys. Lett. 85 4319 (2004) . CrossRef �J. Lekner, "Polarization of tightly focused laser beams", Opt. A: Pure Appl. Opt. 5, 6 (2003). CrossRef �H. Guo, X. Weng, M. Jiang, Y. Zhao, G. Sui, Q. Hu, Y. Wang, S. Zhuang, "Tight focusing of a higher-order radially polarized beam transmitting through multi-zone binary phase pupil filters", Opt.Express 21, 5363 (2013). CrossRef �C.-C. Sun, C.-K. Liu, "Ultrasmall focusing spot with a long depth of focus based on polarization and phase modulation", Opt. Lett. 28, 99 (2003). CrossRef �G.H. Yuan, S.B. Wei, X.-C. Yuan, "Nondiffracting transversally polarized beam", Opt. Lett. 36, 3479 (2011). CrossRef �P. Yu, S. Chen, J. Li, H. Cheng, Z. Li, W. Liu, B. Xie, Z. Liu, J. Tian, "Generation of vector beams with arbitrary spatial variation of phase and linear polarization using plasmonic metasurfaces", Opt. Lett. 40, 3229 (2015). CrossRef �Z. Chen, T. Zeng, B. Qian, "Complete shaping of optical vector beams", J. Ding, Opt. Express 23, 17701 (2015). CrossRef �Z. Liu, Y. Liu, Y. Ke, Y. Liu, W. Shu, H. Luo, S. Wen, "Generation of arbitrary vector vortex beams on hybrid-order Poincaré sphere", Photon. Res. 5, 15 (2017). CrossRef �Z. Man, Z. Bai, S. Zhang, J. Li, X. Li, X. Ge, Y. Zhang, S. Fu, "Focusing properties of arbitrary optical fields combining spiral phase and cylindrically symmetric state of polarization", J. Opt. Soc. Am. A 35, 1014 (2018). CrossRef �Z. Man, S. Fu, G. Wei, "Focus engineering based on analytical formulae for tightly focused polarized beams with arbitrary geometric configurations of linear polarization", J. Opt. Soc. Am. A 34, 1384 (2017). CrossRef �Z. Man et al, "Optical cage generated by azimuthal- and radial-variant vector beams", Appl. Opt. 57 (2018). CrossRef �S.S. Stafeev, V.V Kotlyar, A.G. Nalimov, E.S. K
基于矢量衍射理论,对径向变矢量光束通过介质界面聚焦时的电磁能密度和能量通量(坡印亭矢量)进行了数值分析。通过适当地控制径向和初始相位来定制电磁能密度,从而在焦点区域产生新的焦点图案。这些特殊的性质可以在诸如光捕获、光记录、磁记录、磁共振显微镜和半导体检测等领域找到应用。全文:PDFKhonina, I. Golub,“线偏振光聚焦的优化”,光学学报,36 352(2011)。[CrossRef]刘毅,刘毅,刘立军,“线偏振光的亚波长聚焦光斑形状分析”,光学学报,2014。Opt. 52 330(2013)。CrossRef S. Sen, M.A. Varshney, d.w arshney,“等离子体中线/圆偏振激光辐射的相对论传播”,光学学报,2013(1)。CrossRef M. Martínez-Corral, R. Martínez-Cuenca, I. Escobar, G. Saavedra,“紧聚焦线偏振光束聚焦尺寸的减小”,applied。理论物理。Lett. 85 4319(2004)。cross - ref J. Lekner,“紧密聚焦激光束的偏振”,光学学报(英文版)。选择5,6(2003)。CrossRef h .郭x翁,m .江y赵,g .隋问:胡,y,壮族,“紧聚焦高阶径向偏振光束的传输通过分域二进制阶段学生过滤器”,5363年Opt.Express 21日(2013年)。CrossRef c c。太阳,C.-K。刘,“基于偏振和相位调制的长聚焦深度的超小聚焦点”,光学学报,28,99(2003)。交叉参考袁光华,魏绍波,肖成。袁,“无衍射横向偏振光”,光学学报,36,3479(2011)。引用本文:于鹏,陈世生,李军,程华,李振华,刘伟,谢斌,刘志田,“利用等离子体超表面产生相位和线性极化任意空间变化的矢量光束”,光学学报,40,32(2015)。引用本文:陈振华,曾涛,钱斌,“光矢量光束的完全整形”,丁杰,光学学报,23,17701 (2015)CrossRef z刘,刘y、y客y . Liu w·舒h·罗,美国,“代任意向量涡旋光束hybrid-order庞加莱球”,光子。Res. 5,15(2017)。满忠,白志强,张生,李建军,李晓霞,葛晓霞,张勇,傅树生,“螺旋相位和圆柱对称偏振态结合的任意光场聚焦特性”,光学学报。点。农学通报,2014(5):481 - 481。引用本文:满忠,傅树生,魏国光,“基于线性偏振任意几何结构的紧密聚焦偏振光束的聚焦工程”,光学学报,2011。点。[j] .农业工程学报,2017,37(4)。CrossRef Z. Man et al .,“由方位和径向变矢量光束产生的光笼”,applied。选择57(2018)。[10]刘建军,刘建军,“高阶圆柱矢量光束中能量的非涡旋反向传播”,光子学报。[J] .浙江农业学报,2016,31(1)。CrossRef S.S. Stafeev, V.V. Kotlyar,“环形孔对能量回流面积的影响”,机械工程学报,45(2019):67-71。[10]李建军,李建军,李建军,“高阶圆柱矢量光束的能量回流”,物理学报,2001,11(6):1192 - 1192。CrossRef N.G. Orji, M. Badaroglu, B.M. Barnes,“下一代半导体器件的计量”,电子学报,1,532(2018)。P. Torok, P. Varga, G.R. Booker,“折射率不匹配材料之间的平面界面聚焦光的电磁衍射:电磁场的结构。”I”,I, J. Opt. Soc。点。A 12, 2136(1995)。[CrossRef] P. Torok, P. Varga, Z. Laczik, G.R. Booker,“折射率不匹配材料之间的平面界面聚焦光的电磁衍射:积分表示”,光学学报。点。文学,12,325(1995)。周志强,朱磊,“高阶轴对称偏振光束通过介质界面的紧密聚焦”,光学学报,24,2219(2013)。引用本文:舒建军,陈志强,濮建军,刘勇,“双环形偏振光通过介质界面的紧密聚焦”,光子学报。点。[j] .农业工程学报,2014,31(1)。[交叉参考]胡凯,陈志强,濮建军。,“通过介质界面聚焦混合偏振矢量光束产生超长光学针”,光学学报,37,3303(2012)。王晓明,“电磁衍射在光学系统中的应用”。非平面化系统中图像场的结构研究”,国立国立大学学报。伦敦A 253, 358(1959)。CrossRef
{"title":"Generating novel focal patterns for radial variant vector beam focusing through a dielectric interface","authors":"Maruthasalam Lavanya, D. Thiruarul, K. B. Rajesh, Z. Jaroszewicz","doi":"10.4302/plp.v15i1.1198","DOIUrl":"https://doi.org/10.4302/plp.v15i1.1198","url":null,"abstract":"Electric and magnetic energy densities as well as energy flux (Poynting vector) for radial variant vector beam focusing through a dielectric interface is analyzed numerically based on vector diffraction theory. The electric and magnetic energy densities are tailored by properly manipulating the radial as well as initial phases to generates novel focal patterns in the focal area. These peculiar properties may find applications in fields such as optical trapping, optical recording, magnetic recording, and magnetic resonance microscopy and semiconductor inspection. Full Text: PDF References\u0000\u0000S.N. Khonina, I. Golub, \"Optimization of focusing of linearly polarized light \", Opt. Lett. 36 352 (2011). CrossRef \u0000V.V. Kotlyar, S.S. Stafeev, Y. Liu, L. O'Faolain, A. A. Kovalev, \"Analysis of the shape of a subwavelength focal spot for the linearly polarized light\", Appl. Opt. 52 330 (2013). CrossRef \u0000S. Sen, M.A. Varshney, D. Varshney, \"Relativistic Propagation of Linearly/Circularly Polarized Laser Radiation in Plasmas\", ISRN Optics. 2013 1 (2013). CrossRef \u0000M. Martínez-Corral, R. Martínez-Cuenca, I. Escobar, G. Saavedra, \"Reduction of focus size in tightly focused linearly polarized beams\", Appl. Phys. Lett. 85 4319 (2004) . CrossRef \u0000J. Lekner, \"Polarization of tightly focused laser beams\", Opt. A: Pure Appl. Opt. 5, 6 (2003). CrossRef \u0000H. Guo, X. Weng, M. Jiang, Y. Zhao, G. Sui, Q. Hu, Y. Wang, S. Zhuang, \"Tight focusing of a higher-order radially polarized beam transmitting through multi-zone binary phase pupil filters\", Opt.Express 21, 5363 (2013). CrossRef \u0000C.-C. Sun, C.-K. Liu, \"Ultrasmall focusing spot with a long depth of focus based on polarization and phase modulation\", Opt. Lett. 28, 99 (2003). CrossRef \u0000G.H. Yuan, S.B. Wei, X.-C. Yuan, \"Nondiffracting transversally polarized beam\", Opt. Lett. 36, 3479 (2011). CrossRef \u0000P. Yu, S. Chen, J. Li, H. Cheng, Z. Li, W. Liu, B. Xie, Z. Liu, J. Tian, \"Generation of vector beams with arbitrary spatial variation of phase and linear polarization using plasmonic metasurfaces\", Opt. Lett. 40, 3229 (2015). CrossRef \u0000Z. Chen, T. Zeng, B. Qian, \"Complete shaping of optical vector beams\", J. Ding, Opt. Express 23, 17701 (2015). CrossRef \u0000Z. Liu, Y. Liu, Y. Ke, Y. Liu, W. Shu, H. Luo, S. Wen, \"Generation of arbitrary vector vortex beams on hybrid-order Poincaré sphere\", Photon. Res. 5, 15 (2017). CrossRef \u0000Z. Man, Z. Bai, S. Zhang, J. Li, X. Li, X. Ge, Y. Zhang, S. Fu, \"Focusing properties of arbitrary optical fields combining spiral phase and cylindrically symmetric state of polarization\", J. Opt. Soc. Am. A 35, 1014 (2018). CrossRef \u0000Z. Man, S. Fu, G. Wei, \"Focus engineering based on analytical formulae for tightly focused polarized beams with arbitrary geometric configurations of linear polarization\", J. Opt. Soc. Am. A 34, 1384 (2017). CrossRef \u0000Z. Man et al, \"Optical cage generated by azimuthal- and radial-variant vector beams\", Appl. Opt. 57 (2018). CrossRef \u0000S.S. Stafeev, V.V Kotlyar, A.G. Nalimov, E.S. K","PeriodicalId":20055,"journal":{"name":"Photonics Letters of Poland","volume":"1 1","pages":""},"PeriodicalIF":0.6,"publicationDate":"2023-04-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"43838063","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
R. Siskandar, Wiyoto Wiyoto, Sesar Husen Santosa, Julie Eka Sari, Giri Maruto Darmawangsa, A. Hidayat, Derry Dardanella, B. R. Kusumah
An optical sensor-based water turbidity value reader has been made with an IR-emitting light source, a red LED, and a laser. The tool is made as a solution for reading water turbidity values that are impermeable to light-intensity disturbances. In principle, each light emitter will always shoot toward the sensor. The position of the transmitter and sensor is right between the flowing water pipes. When the water flows, the sensor will read the hardness value of the water (in analog value). Of course, pipes, sensors, transmitting sources, and electronic devices are protected by a casing that is impermeable to light intensity. The casing can be placed outside the pool to facilitate the process of tool maintenance. The tool was made in the SV-IPB University hardware laboratory and tested in the SV-IPB University fish pond from April 2022 to October 2022. Tests for all emitting light sources were carried out on aqueous media which has a flock of 6 ml/l. The results show that the three transmitter sources have analog readings in the same range, namely 2200 to 2300. However, of the three, the red LED transmitter sources have consistent reading values for three replications. Thus, the red LED light emitting source has good potential to be used as an optical sensor to read the value of water turbidity in biofloc media. This was proven again in measurements using variations in flock values (5 ml/l, 6 ml/l, 12 ml/l, and 17 ml/l), indicating that the higher the flock value, the greater the resistance value, so the output voltage value is higher. small. The output voltage value can be calculated from the analog value measured by the device. Full Text: PDF References��S.-K. Kim et al., "Different maturation of gut microbiome in Korean children", Front. Microbiol. 13, 1 (2022) CrossRef �S. Configuration, "Production of Marine Shrimp Integrated with Tilapia at High Densities and in a Biofloc System: Choosing the Best Spatial Configuration", fishes, 7, 283 (2022). CrossRef �H.-H. Huang et al., "FinBERT: A Large Language Model for Extracting Information from Financial Text", Int. Conf., 1 (2022). CrossRef �N. H. Sadi, D. Agustiyani, F. Ali, M. Badjoeri, Triyanto, "Application of Biofloc Technology in Indonesian Eel Anguilla bicolor bicolor Fish Culture: Water Quality Profile", IOP Conf. Ser. Earth Environ. Sci., 1062, 1 (2022). CrossRef �M. M. Rashid, A. A. Nayan, M. O. Rahman, S. A. Simi, J. Saha, M. G. Kibria, "IoT based Smart Water Quality Prediction for Biofloc Aquaculture", Int. J. Adv. Comput. Sci. Appl., 12, 56, (2021). CrossRef �D. Krummenauer, A. Freitas Silva, M. Xavier, L. H. Poersch, A. Cardozo, "Comparative analysis of the culture of pink shrimp Farfantepenaeus brasiliensis and Pacific white shrimp Litopenaeus vannamei in biofloc system", Aquac. Int., 1 (2022). CrossRef �A. Suloma Mahmoud, A. H. Gomaa, M. A. A. Abo-Taleb, H. R. A. Mola, M. S. Khattab, R. S. Mabroke, "Heterotrophic biofloc as a promising system to enhance nutrients waste recycling, dry
利用红外发光光源、红色LED和激光制成了一种基于光学传感器的水浑浊值读取器。该工具是作为读取水浊度值的解决方案,不受光强干扰。原则上,每个光发射器总是朝传感器发射。变送器和传感器的位置在流动水管之间。当水流动时,传感器将读取水的硬度值(模拟值)。当然,管道、传感器、传输源和电子设备都有不透光的外壳保护。套管可置于池外,方便工具维修过程。该工具由SV-IPB大学硬件实验室制造,并于2022年4月至2022年10月在SV-IPB大学鱼塘进行了测试。所有发射光源的测试都在6 ml/l的水介质上进行。结果表明,三种发射机源的模拟读数在相同的范围内,即2200 ~ 2300。然而,在这三个,红色LED发射机源有一致的读数值为三个复制。因此,红色LED发光光源具有良好的潜力,可以作为光学传感器来读取生物絮团介质中水的浊度值。在使用群值变化(5 ml/l、6 ml/l、12 ml/l和17 ml/l)的测量中再次证明了这一点,表明群值越高,电阻值越大,因此输出电压值也越高。小。输出电压值可由装置测量的模拟值计算得到。全文:PDFKim et al.,“韩国儿童肠道微生物群的不同成熟”,Front。交叉参考配置,“罗非鱼与海洋对虾在高密度生态系统中的融合:最佳空间配置选择”,水产学报,2017,28(2022)。CrossRef h。Huang et al.,“FinBERT:一种用于从金融文本中提取信息的大型语言模型”,英译。会议,1(2022)。参考文献N. H. Sadi, D. Agustiyani, F. Ali, M. Badjoeri, Triyanto,“生物絮团技术在印尼鳗鲡双色鱼养殖中的应用:水质概况”,国际水产科学院学报。地球环境。科学。生物医学工程学报,2012,1(2)。M. M. Rashid, A. A. Nayan, M. O. Rahman, S. A. Simi, J. Saha, M. G. Kibria,“基于物联网的生物群落水产养殖智能水质预测”,[j]。J. Adv.计算。科学。达成。, 12, 56,(2021)。CrossRef D. Krummenauer, A. Freitas Silva, M. Xavier, L. H. Poersch, A. Cardozo,“巴西法凡特对虾和凡纳滨对虾在生物群落系统中培养的比较分析”,水生生物学报。Int。, 1(2022)。引用本文:a . Suloma Mahmoud, a . H. Gomaa, M. a . abob - taleb, H. R. a . Mola, M. S. Khattab, R. S. Mabroke,“异养生物絮团对鳗鲡营养废物回收、干日粮接受和肠道健康状况的影响”,水产学报,14,21(2021)。M. E. Ramadani, B. Raafi'u, M. Mursid, R. H. Ash-Shiddieqy, A. T. Zain, A. Fauzan Ladziimaa,“基于物联网的鱼塘水质监测系统的设计与开发”,中国水产科学与工程学报,2021 - 2021第3期。会议,5,148(2021)。陈建军,张建军,张建军,“生态环境下湖泊生态系统的研究进展”,生态环境学报,2014,29(2)。引用本文:李建军,张建军,张建军,张建军。基于单片机的自动喂鱼系统的设计与实现[j] .中国机械工程,2016,33(6):559 - 564。DirectLink
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