Digital Image Correlation became one of the dominant optical full-field techniques used in experimental mechanics. It does not require sophisticated equipment to evaluate the full displacement vector field of the specimen under test with great accuracy. In this paper, we would like to put the reader's attention to the DIC technique as a solution that may identify the genuine character of the load applied to the object under test. Our experience with testing wind turbine blades using DIC proves that possibility. Full Text: PDF References E.M.C Jones, M.A. Iadicola, "A good practises guide for digital image correlation" International Digital Image Correlation Society, (2018), CrossRef B. Pan, "Digital image correlation for surface deformation measurement: historical developments, recent advances and future goals", Meas. Sci. Technol. 29, 082001 (2018), CrossRef B. Pan, L.P. Yu, Q.B. Zhang, "Review of single-camera stereo-digital image correlation techniques for full-field 3D shape and deformation measurement", Sci. China Technol. Sci. 61, 2 (2018), CrossRef S. Sharma, N. Iniyan Thiruselvam, S.J. Subramanian, G.S. Kumar, "Computation of strains from stereo digital image correlation using principal component analysis", Meas. Sci. Technol. 32, 105201 (2021), CrossRef IEC 61400-5:2020 Wind energy generation systems - Part 5: Wind turbine, DirectLink IEC 61400-23:2014 Wind turbines - Part 23: Full-scale structural testing of rotor blades, DirectLink
数字图像相关成为实验力学中主要的光学全场技术之一。它不需要复杂的设备,以很高的精度评估被测试样的全位移矢量场。在本文中,我们想把读者的注意力放在DIC技术上,作为一种解决方案,可以识别施加在被测对象上的负载的真实特征。我们使用DIC测试风力涡轮机叶片的经验证明了这种可能性。E.M.C Jones, M.A. Iadicola,“数字图像相关的良好实践指南”国际数字图像相关学会,(2018),CrossRef B. Pan,“地表变形测量的数字图像相关:历史发展,最新进展和未来目标”,Meas。科学。张秋波,潘波,余丽萍,“单相机立体数字图像相关技术在全视野三维形状和变形测量中的应用”,科学技术,2008,08(2018)。中国抛光工艺。李建军,张建军,张建军,张建军,“基于主成分分析的立体数字图像相关应变计算”,中国科学院学报(自然科学版),2018。科学。风能发电系统-第5部分:风力涡轮机,DirectLink。风力涡轮机-第23部分:转子叶片全尺寸结构测试,DirectLink
{"title":"Making use of Digital Image Correlation to identify the true character of the applied load","authors":"Adam Styk, Stanisław Świder, Sergei Semenov","doi":"10.4302/plp.v15i3.1217","DOIUrl":"https://doi.org/10.4302/plp.v15i3.1217","url":null,"abstract":"Digital Image Correlation became one of the dominant optical full-field techniques used in experimental mechanics. It does not require sophisticated equipment to evaluate the full displacement vector field of the specimen under test with great accuracy. In this paper, we would like to put the reader's attention to the DIC technique as a solution that may identify the genuine character of the load applied to the object under test. Our experience with testing wind turbine blades using DIC proves that possibility. Full Text: PDF References E.M.C Jones, M.A. Iadicola, \"A good practises guide for digital image correlation\" International Digital Image Correlation Society, (2018), CrossRef B. Pan, \"Digital image correlation for surface deformation measurement: historical developments, recent advances and future goals\", Meas. Sci. Technol. 29, 082001 (2018), CrossRef B. Pan, L.P. Yu, Q.B. Zhang, \"Review of single-camera stereo-digital image correlation techniques for full-field 3D shape and deformation measurement\", Sci. China Technol. Sci. 61, 2 (2018), CrossRef S. Sharma, N. Iniyan Thiruselvam, S.J. Subramanian, G.S. Kumar, \"Computation of strains from stereo digital image correlation using principal component analysis\", Meas. Sci. Technol. 32, 105201 (2021), CrossRef IEC 61400-5:2020 Wind energy generation systems - Part 5: Wind turbine, DirectLink IEC 61400-23:2014 Wind turbines - Part 23: Full-scale structural testing of rotor blades, DirectLink","PeriodicalId":20055,"journal":{"name":"Photonics Letters of Poland","volume":"63 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":"136341521","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}
Ezgi Kilicaslan, Muhammad Ali Butt, Andrzej Kazmierczak, Ryszard Piramidowicz
This short report discusses the technological challenges of silica-titania (SiO2:TiO2) thin film deposited via a simple, cost-effective sol-gel process and dip-coating method. Sol-gel is a versatile method for producing materials by using a solution (sol) that undergoes a gelation process to form a solid network (gel). This process involves hydrolysis and condensation reactions of precursor molecules. Although the sol-gel application is simple and economical, it has some limitations. The aging of sol-gel materials causes a change in the properties and structure of a sol-gel system over time, causing a deterioration in the final properties of the waveguide thin films. Nanoimprint lithography is a cost-effective patterning technique that is only effective when fresh sol is used; otherwise, it leads to the formation of defective waveguide structures. Full Text: PDF References M. Ebelmen, Annl. Chim. Phys. 1846(16), 129 (1846). CrossRef H.C. Vasconcelos, Waveguide technologies in Photonics and Microwave Engineering (IntechOpen, 2020). CrossRef X. Orignac, H.C. Vasconcelos, R.M. Almeida, "Structural study of SiO2 TiO2 sol—gel films by X-ray absorption and photoemission spectroscopies", J. Non-Crystalline Solids 217, 155 (1997). CrossRef X. Orignac, H.C. Vasconcelos, X.M. Du, R.M. Almeida, "Influence of Solvent Concentration on the Microstructure of SiO2-TiO2 Sol-Gel Films", J. sol-gel Scien. Technol. 8, 243 (1997). CrossRef P. Karasiński, J. Jaglarz, J. Mazur, "Low loss silica-titania waveguide films", Photonics Lett. Pol. 2, 37 (2010). CrossRef A.I.G. Varela et al., Recent Applications in Sol-Gel Synthesis (InTech 2017) DirectLink M.A. Butt, "Thin-Film Coating Methods: A Successful Marriage of High-Quality and Cost-Effectiveness—A Brief Exploration", Coatings 12, 1115 (2022). CrossRef M.A. Butt, C. Tyszkiewicz, P. Karasiński, M. Zięba, A. Kaźmierczak, M. Zdończyk, L. Duda, M. Guzik, J. Olszewski, T. Martynkien, A. Bachmatiuk, R. Piramidowicz, "Optical Thin Films Fabrication Techniques—Towards a Low-Cost Solution for the Integrated Photonic Platform: A Review of the Current Status", Materials 29, 4591 (2022). CrossRef M.A. Butt, C. Tyszkiewicz, K. Wojtasik, P. Karasinski, A. Kazmierczak, R. Piramidowicz, "Subwavelength Grating Waveguide Structures Proposed on the Low-Cost Silica–Titania Platform for Optical Filtering and Refractive Index Sensing Applications", Int. J. Mol. Sci. 23, 6614 (2022). CrossRef L. Guo, "Nanoimprint Lithography: Methods and Material Requirements", Adv. Mater. 19, 495 (2007). CrossRef V. Prajzler, V. Chlupaty, P. Kulha, M. Neruda, S. Kopp, M. Muhlberger, "Optical Polymer Waveguides Fabricated by Roll-to-Plate Nanoimprinting Technique", Nanomaterials 11, 724 (2021). CrossRef A. Cherala, P.N. Pandya, K.M. Liechti, S.V. Sreenivasan, "Extending the resolution limits of nanoshape imprint lithography using molecular dynamics of polymer crosslinking", Microsyst. Nanoeng. 7, 13 (2021). CrossRef K. Wojtasik, M. Zieba, C. Tyszkiewicz, W.
这篇简短的报告讨论了通过简单、经济的溶胶-凝胶法和浸涂法沉积二氧化硅-二氧化钛(SiO2:TiO2)薄膜的技术挑战。溶胶-凝胶是一种通用的生产材料的方法,它使用溶液(溶胶),经过凝胶化过程形成固体网络(凝胶)。这一过程涉及前体分子的水解和缩合反应。溶胶-凝胶法虽然简单、经济,但也存在一定的局限性。随着时间的推移,溶胶-凝胶材料的老化会导致溶胶-凝胶体系的性能和结构发生变化,从而导致波导薄膜的最终性能恶化。纳米压印技术是一种具有成本效益的制版技术,只有在使用新鲜溶胶时才有效;否则,会导致形成有缺陷的波导结构。参考文献M. Ebelmen, Annl。詹。物理学。1846(16),129(1846)。CrossRef H.C. Vasconcelos,光子学和微波工程中的波导技术(IntechOpen, 2020)。CrossRef X. Orignac, H.C. Vasconcelos, R.M. Almeida,“二氧化硅-二氧化钛溶胶-凝胶膜的x射线吸收和光发射光谱结构研究”,非结晶固体,217,155(1997)。* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *。技术8,243(1997)。CrossRef P. Karasiński, J. Jaglarz, J. Mazur,“低损耗二氧化硅-二氧化钛波导薄膜”,光子学杂志。高分子学报,2010,37(2010)。CrossRef A.I.G. Varela et al.,溶胶-凝胶合成技术的最新应用(InTech 2017)交叉ref M. a . Butt, C. Tyszkiewicz, P. Karasiński, M. Zięba, a . Kaźmierczak, M. Zdończyk, L. Duda, M. Guzik, J. Olszewski, T. Martynkien, a . Bachmatiuk, R. Piramidowicz,“光学薄膜制造技术-迈向集成光子平台的低成本解决方案:现状综述”,材料29,4591(2022)。M.A. Butt, C. Tyszkiewicz, K. Wojtasik, P. Karasinski, A. Kazmierczak, R. Piramidowicz,“基于低成本二氧化硅-二氧化钛平台的亚波长光栅波导结构的光学滤波和折射率传感应用”生物医学工程学报,2003,18(3):481 - 481。郭磊,“纳米压印技术的研究与应用”,材料学报,1999,495(2007)。CrossRef V. Prajzler, V. Chlupaty, P. Kulha, M. Neruda, S. Kopp, M. Muhlberger,“卷到板纳米压印技术制备光学聚合物波导”,纳米材料,11,724(2021)。[10]陈建军,陈建军,陈建军,“基于分子动力学的纳米压印技术研究”,高分子材料学报。纳米能,7,13(2021)。[CrossRef] K. Wojtasik, M. Zieba, C. Tyszkiewicz, W. Pakiela, G. Zak, O. Jeremiasz, E. Gondek, K. Drabczyk, P. Karasinski,“溶胶-凝胶法制备氧化锌薄膜的光学性能、形貌和光催化活性的影响”,材料学报,1998(2023)。CrossRef A. Kaźmierczak, M.A. Butt, M. Zięba, C. Tyszkiewicz, P. Karasiński, R. Piramidowicz,“在SiO2中实现集成光子传感器的最方便配置:TiO2溶胶-凝胶衍生波导膜技术”,Proc. SPIE 12139,光学传感与检测VII;1213908(2022)。CrossRef K. Racka-Szmidt, B. Stonio, J. Żelazko, M. Filipiak, M. Sochacki,“电感耦合等离子体反应离子刻蚀碳化硅的研究进展”,材料24,123(2021)。CrossRef M.A. Butt等。“低成本二氧化硅-二氧化钛集成光子学光学平台的开发”,光学学报,30,23678(2022)。CrossRef S. Barcelo,李志明,“纳米压印技术在纳米器件制造中的应用”,纳米材料,2016,21(2016)。CrossRef陶宏根。Shin - h。李,K-J。机构,钴。Han, H. Lee, K. Tsunozaki,“柔性UV纳米压印模的制备与氟化聚合物涂层PET薄膜”,纳米材料学报,6,458(2011)。CrossRef U. Tahir, Y.B. Shim, M.A. Kamran, D-I。金,郑明义,“纳米加工技术:挑战与未来展望”,j。纳米技术,21,49(2021)。CrossRef M.A. Butt, M. Shahbaz, L. Kozłowski, A. Kaźmierczak, R. Piramidowicz,“光子传感器件研究进展综述”,光子学报,2008(2023)。CrossRef M.A. Butt等。“HYPHa项目:集成光子学的低成本替代方案”,《光子快报》。Pol. 14,25(2022)。CrossRef
{"title":"Technological challenges in the development of silica-titania platform for integrated optics","authors":"Ezgi Kilicaslan, Muhammad Ali Butt, Andrzej Kazmierczak, Ryszard Piramidowicz","doi":"10.4302/plp.v15i3.1221","DOIUrl":"https://doi.org/10.4302/plp.v15i3.1221","url":null,"abstract":"This short report discusses the technological challenges of silica-titania (SiO2:TiO2) thin film deposited via a simple, cost-effective sol-gel process and dip-coating method. Sol-gel is a versatile method for producing materials by using a solution (sol) that undergoes a gelation process to form a solid network (gel). This process involves hydrolysis and condensation reactions of precursor molecules. Although the sol-gel application is simple and economical, it has some limitations. The aging of sol-gel materials causes a change in the properties and structure of a sol-gel system over time, causing a deterioration in the final properties of the waveguide thin films. Nanoimprint lithography is a cost-effective patterning technique that is only effective when fresh sol is used; otherwise, it leads to the formation of defective waveguide structures. Full Text: PDF References M. Ebelmen, Annl. Chim. Phys. 1846(16), 129 (1846). CrossRef H.C. Vasconcelos, Waveguide technologies in Photonics and Microwave Engineering (IntechOpen, 2020). CrossRef X. Orignac, H.C. Vasconcelos, R.M. Almeida, \"Structural study of SiO2 TiO2 sol—gel films by X-ray absorption and photoemission spectroscopies\", J. Non-Crystalline Solids 217, 155 (1997). CrossRef X. Orignac, H.C. Vasconcelos, X.M. Du, R.M. Almeida, \"Influence of Solvent Concentration on the Microstructure of SiO2-TiO2 Sol-Gel Films\", J. sol-gel Scien. Technol. 8, 243 (1997). CrossRef P. Karasiński, J. Jaglarz, J. Mazur, \"Low loss silica-titania waveguide films\", Photonics Lett. Pol. 2, 37 (2010). CrossRef A.I.G. Varela et al., Recent Applications in Sol-Gel Synthesis (InTech 2017) DirectLink M.A. Butt, \"Thin-Film Coating Methods: A Successful Marriage of High-Quality and Cost-Effectiveness—A Brief Exploration\", Coatings 12, 1115 (2022). CrossRef M.A. Butt, C. Tyszkiewicz, P. Karasiński, M. Zięba, A. Kaźmierczak, M. Zdończyk, L. Duda, M. Guzik, J. Olszewski, T. Martynkien, A. Bachmatiuk, R. Piramidowicz, \"Optical Thin Films Fabrication Techniques—Towards a Low-Cost Solution for the Integrated Photonic Platform: A Review of the Current Status\", Materials 29, 4591 (2022). CrossRef M.A. Butt, C. Tyszkiewicz, K. Wojtasik, P. Karasinski, A. Kazmierczak, R. Piramidowicz, \"Subwavelength Grating Waveguide Structures Proposed on the Low-Cost Silica–Titania Platform for Optical Filtering and Refractive Index Sensing Applications\", Int. J. Mol. Sci. 23, 6614 (2022). CrossRef L. Guo, \"Nanoimprint Lithography: Methods and Material Requirements\", Adv. Mater. 19, 495 (2007). CrossRef V. Prajzler, V. Chlupaty, P. Kulha, M. Neruda, S. Kopp, M. Muhlberger, \"Optical Polymer Waveguides Fabricated by Roll-to-Plate Nanoimprinting Technique\", Nanomaterials 11, 724 (2021). CrossRef A. Cherala, P.N. Pandya, K.M. Liechti, S.V. Sreenivasan, \"Extending the resolution limits of nanoshape imprint lithography using molecular dynamics of polymer crosslinking\", Microsyst. Nanoeng. 7, 13 (2021). CrossRef K. Wojtasik, M. Zieba, C. Tyszkiewicz, W.","PeriodicalId":20055,"journal":{"name":"Photonics Letters of Poland","volume":"35 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":"136341522","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}
Nurul Afiqah Buruhanutheen, Ahmad Sharmi Abdullah, Mohd Halim Irwan Ibrahim, Fauzan Ahmad, Mohd Haniff Ibrahim
The performance of four distinct materials (organic and inorganic) was simulated and analyzed as hole transport layer (HTL) in the design of germanium (Ge)-based Perovskite Solar Cell (PSC). A 1-dimensional numerical software (SCAPS 1-D) has been applied to simulate the HTL candidates: spiro-OMeTAD, PTAA, nickel oxide (NiO), and copper (I) thiocyanate (CuSCN), with tin (IV) dioxide (SnO2) as the electron transport layer (ETL). The thickness of the methylammonium germanium iodide (CH3NH3GeI3) absorber was varied from 300 nm to 1100 nm, and the highest simulated power conversion efficiency was achieved at a thickness of 800 nm for all HTL candidates. It was observed that the inorganic CuSCN outperformed its counterparts with a power conversion efficiency (PCE) of 25.38%. The effect of the perovskite absorber’s defect density was investigated, and ultimately, it was demonstrated that this value is disproportionately related to the PCE. A reduction of nearly 98% in PCE was recorded when the defect density increased from 1x1014 cm-3 to 1x1020 cm-3. Additionally, for a constant ETL thickness of 80 nm, it was revealed that the PCE would decrease slightly, ranging from 0.1% to 0.3%, with an increase in HTL thickness from 50 nm to 300 nm. Comparing the PCE of our current work with published reports further justifies its competitiveness. Full Text: PDF References W.R. Becquerel, "Becquerel Photovoltaic Effect in Binary Compounds", J. Chem. Phys. 32, 1505 (1960). CrossRef A. Kojima, K. Teshima, Y. Shirai, T. Miyasaka, "Organometal Halide Perovskites as Visible-Light Sensitizers for Photovoltaic Cells", J. Am. Chem. Soc. 131, 6050 (2009). CrossRef M.M. Salah, K.M. Hassan, M. Abouelatta, A. Shaker, "A comparative study of different ETMs in perovskite solar cell with inorganic copper iodide as HTM", Optik 178, 958 (2019). CrossRef S. Rai, B. Pandey, A. Garg, D. Dwivedi, "Hole transporting layer optimization for an efficient lead-free double perovskite solar cell by numerical simulation", Opt. Mater, 121, 111645 (2021). CrossRef H. Liangsheng, Z. Min, S. Yubao, M. Xinxia, W. Jiang, Z. Qunzhi, F, Zaiguo, L. Yihao, H. Guoyu, L. Tong, "Tin-based perovskite solar cells: Further improve the performance of the electron transport layer-free structure by device simulation", Sol. Energy, 230, 345 (2021). CrossRef K. Fatema, M. Arefin, "Enhancing the efficiency of Pb-based and Sn-based perovskite solar cell by applying different ETL and HTL using SCAPS-ID", Opt. Mater. 125, 112036 (2022). CrossRef P. Patel, "Device simulation of highly efficient eco-friendly CH3NH3SnI3 perovskite solar cell", Sci. Rep., 11, 3082 (2021). CrossRef P. Roy, Y. Raoui, A. Khare, "Design and simulation of efficient tin based perovskite solar cells through optimization of selective layers: Theoretical insights", Opt. Mater., 125, 112057 (2022). CrossRef A.I. Azmi, M.Y. Mohd Noor, M.H.I. Ibrahim, F. Ahmad, M.H. Ibrahim, "A Numerical Simulation of Transport Layer Thickness Effect in Tin-Based Pero
在锗基钙钛矿太阳能电池(PSC)的设计中,模拟和分析了四种不同材料(有机和无机)作为空穴传输层(HTL)的性能。以二氧化锡(SnO2)为电子传递层(ETL),应用一维数值软件(SCAPS 1-D)模拟了HTL候选者:spiro-OMeTAD、PTAA、氧化镍(NiO)和硫氰酸铜(CuSCN)。甲基碘化锗(CH3NH3GeI3)吸收剂的厚度从300 nm变化到1100 nm,所有HTL候选材料的模拟功率转换效率在800 nm时达到最高。结果表明,无机CuSCN的功率转换效率(PCE)为25.38%,优于同类材料。研究了钙钛矿吸收剂缺陷密度的影响,最终证明缺陷密度值与PCE不成比例地相关,当缺陷密度从1x1014 cm-3增加到1x1020 cm-3时,PCE下降了近98%。此外,当ETL厚度为80 nm时,随着HTL厚度从50 nm增加到300 nm, PCE会略有下降,幅度在0.1% ~ 0.3%之间。将我们目前工作的个人支出与已发表的报告进行比较,进一步证明了其竞争力。W.R. Becquerel,“二元化合物中的贝克勒尔光电效应”,化学学报。物理学32,1505(1960)。引用本文:A. Kojima, K. Teshima, Y. Shirai, T. Miyasaka,“有机金属卤化物钙钛矿在光伏电池可见光敏化中的应用”,J. Am。化学。社会学报,131,6050(2009)。CrossRef M.M. Salah, K.M. Hassan, M. Abouelatta, A. Shaker,“无机氯化铜作为HTM的钙钛矿太阳能电池中不同etm的比较研究”,光学学报,178,958(2019)。陈晓明,陈晓明,陈晓明,“基于量子力学的无铅双钙钛矿太阳能电池的空穴传输层优化研究”,光子学报,2011,31(11):1245 - 1245(2021)。CrossRef胡良生,闵志明,邵玉宝,孟新霞,姜伟,朱群智,F,再国,李义浩,洪国宇,仝亮,“锡基钙钛矿太阳能电池:通过器件模拟进一步提高电子传输无层结构的性能”,太阳能学报,230,345(2021)。CrossRef K. Fatema, M. Arefin,“基于SCAPS-ID的pb基和sn基钙钛矿太阳能电池的效率提高”,光电工程,125,112036(2022)。CrossRef P. Patel,“高效环保CH3NH3SnI3钙钛矿太阳能电池的器件模拟”,Sci。众议员,11,3082(2021)。CrossRef P. Roy, Y. Raoui, A. Khare,“通过优化选择层的高效锡基钙钛矿太阳能电池的设计和模拟:理论见解”,光学学报。生物工程学报,125,112057(2022)。[CrossRef] A.I. Azmi, M.Y. Mohd Noor, M.H.I. Ibrahim, F. Ahmad, M.H. Ibrahim,“锡基钙钛矿太阳能电池输运层厚度效应的数值模拟”,中国机械工程,8,355(2022)。A.A. Kanoun, M.B. Kanoun, A.E. Merad, S. Goumri-Said,“基于CH3NH3GeI3的高性能钙钛矿太阳能电池的计算方法研究”,太阳能,182,237(2019)。CrossRef A. Hima, N. Lakhdar,“利用CuSbS2提高CH3NH3GeI3太阳能电池的效率和稳定性”,光电学报。浙江农业学报,1999,109607(2020)。[10]王晓明,杨晓明,“无铅钙钛矿太阳能电池的制备及其性能研究”,材料工程,2003,24(6):444 - 444。CrossRef
{"title":"Modelling of Germanium-Based Perovskite Solar Cell for Different Hole Transport Materials and Defect Density","authors":"Nurul Afiqah Buruhanutheen, Ahmad Sharmi Abdullah, Mohd Halim Irwan Ibrahim, Fauzan Ahmad, Mohd Haniff Ibrahim","doi":"10.4302/plp.v15i3.1231","DOIUrl":"https://doi.org/10.4302/plp.v15i3.1231","url":null,"abstract":"The performance of four distinct materials (organic and inorganic) was simulated and analyzed as hole transport layer (HTL) in the design of germanium (Ge)-based Perovskite Solar Cell (PSC). A 1-dimensional numerical software (SCAPS 1-D) has been applied to simulate the HTL candidates: spiro-OMeTAD, PTAA, nickel oxide (NiO), and copper (I) thiocyanate (CuSCN), with tin (IV) dioxide (SnO2) as the electron transport layer (ETL). The thickness of the methylammonium germanium iodide (CH3NH3GeI3) absorber was varied from 300 nm to 1100 nm, and the highest simulated power conversion efficiency was achieved at a thickness of 800 nm for all HTL candidates. It was observed that the inorganic CuSCN outperformed its counterparts with a power conversion efficiency (PCE) of 25.38%. The effect of the perovskite absorber’s defect density was investigated, and ultimately, it was demonstrated that this value is disproportionately related to the PCE. A reduction of nearly 98% in PCE was recorded when the defect density increased from 1x1014 cm-3 to 1x1020 cm-3. Additionally, for a constant ETL thickness of 80 nm, it was revealed that the PCE would decrease slightly, ranging from 0.1% to 0.3%, with an increase in HTL thickness from 50 nm to 300 nm. Comparing the PCE of our current work with published reports further justifies its competitiveness. Full Text: PDF References W.R. Becquerel, \"Becquerel Photovoltaic Effect in Binary Compounds\", J. Chem. Phys. 32, 1505 (1960). CrossRef A. Kojima, K. Teshima, Y. Shirai, T. Miyasaka, \"Organometal Halide Perovskites as Visible-Light Sensitizers for Photovoltaic Cells\", J. Am. Chem. Soc. 131, 6050 (2009). CrossRef M.M. Salah, K.M. Hassan, M. Abouelatta, A. Shaker, \"A comparative study of different ETMs in perovskite solar cell with inorganic copper iodide as HTM\", Optik 178, 958 (2019). CrossRef S. Rai, B. Pandey, A. Garg, D. Dwivedi, \"Hole transporting layer optimization for an efficient lead-free double perovskite solar cell by numerical simulation\", Opt. Mater, 121, 111645 (2021). CrossRef H. Liangsheng, Z. Min, S. Yubao, M. Xinxia, W. Jiang, Z. Qunzhi, F, Zaiguo, L. Yihao, H. Guoyu, L. Tong, \"Tin-based perovskite solar cells: Further improve the performance of the electron transport layer-free structure by device simulation\", Sol. Energy, 230, 345 (2021). CrossRef K. Fatema, M. Arefin, \"Enhancing the efficiency of Pb-based and Sn-based perovskite solar cell by applying different ETL and HTL using SCAPS-ID\", Opt. Mater. 125, 112036 (2022). CrossRef P. Patel, \"Device simulation of highly efficient eco-friendly CH3NH3SnI3 perovskite solar cell\", Sci. Rep., 11, 3082 (2021). CrossRef P. Roy, Y. Raoui, A. Khare, \"Design and simulation of efficient tin based perovskite solar cells through optimization of selective layers: Theoretical insights\", Opt. Mater., 125, 112057 (2022). CrossRef A.I. Azmi, M.Y. Mohd Noor, M.H.I. Ibrahim, F. Ahmad, M.H. Ibrahim, \"A Numerical Simulation of Transport Layer Thickness Effect in Tin-Based Pero","PeriodicalId":20055,"journal":{"name":"Photonics Letters of Poland","volume":"32 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":"136342808","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}
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
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The present theoretical study exhibits the possibility of achieving extremely high sensitive surface plasmon resonance based biosensor comprising of Cu-Pt bimetallic layer and BlueP/WS2 hybrid nanostructure for angular interrogation method. Based of Transfer matrix method thickness of Cu and Pt as well as the number of BlueP/WS2 layer is optimized to obtain the best possible sensitivity and FOM. The well optimized Cu-Pt-BlueP/WS2 hybridstructure is found to generate sensitivity as high as 502°/RIU with FOM as 128.7RIU-1 such sensor is highly useful for detecting biomolecules. Full Text: PDF References��A.H.M. Almawgani, M.G. Daher, S.A. Taya, M. Mashagbeh, I. Colak. "Optical Detection of Fat Concentration in Milk Using MXene-Based Surface Plasmon Resonance Structure", Biosensors 12, 535 (2022). CrossRef �E. Kretschmann, H. Raether, "Notizen: Radiative Decay of Non Radiative Surface Plasmons Excited by Light", Z. Naturf. a 23, 2135 (1968). CrossRef �M.G. Daher, Y. Trabelsi, Y.K. Prajapati, A. Panda, N.M. Ahmed, A.N.Z. Rashed., "Highly sensitive detection of infected red blood cells (IRBCs) with plasmodium falciparum using surface plasmon resonance (SPR) nanostructure", Opt. Quantum Electron. 55, 199 (2023). CrossRef �A.H.M. Almawgani, M.G. Daher, S.A. Taya, M.M. Olaimat, A.R.H. Alhawari, I. Colak., "Detection of Blood Plasma Concentration Theoretically Using SPR-Based Biosensor Employing Black Phosphor Layers and Different Metals", Plasmonics 17,1751 (2022). CrossRef �Y. Saad, M. Selmi, M.H. Gazzah, A. Bajahzar, H. Belmabrouk, "Performance enhancement of a copper-based optical fiber SPR sensor by the addition of an oxide layer", Optik 190, 1 (2019). CrossRef �N.K. Sharma, S. Shukla, V. Sajal, "Surface plasmon resonance based fiber optic sensor using an additional layer of platinum: A theoretical study", Optik 133, 43 (2017). CrossRef �S. Shukla, M. Rani, N.K. Sharma, V. Sajal, "Sensitivity enhancement of a surface plasmon resonance based fiber optic sensor utilizing platinum layer", Optik 126, 4636 (2015). CrossRef �S. Singh, A.K. Sharma, P. Lohia, D.K. Dwivedi, "Theoretical analysis of sensitivity enhancement of surface plasmon resonance biosensor with zinc oxide and blue phosphorus/MoS2 heterostructure", Optik 244, 167618 (2021). CrossRef �N. Liu, S. Wang, Q. Cheng, B. Pang, J. Lv, "High Sensitivity in Ni-Based SPR Sensor of Blue Phosphorene/Transition Metal Dichalcogenides Hybrid Nanostructure", Plasmonics 16, 1567 (2021). CrossRef �S. Shivangani, M.F. Alotaibi, Y. Al-Hadeethi, P. Lohia, S. Singh, D.K. Dwivedi, A. Umar, H.M. Alzayed, H. Algadi, S. Baskoutas, "Numerical Study to Enhance the Sensitivity of a Surface Plasmon Resonance Sensor with BlueP/WS2-Covered Al2O3-Nickel Nanofilms", Nanomater. Basel 12, 2205 (2022). CrossRef �M. Yamamoto, "Surface Plasmon Resonance (SPR) Theory: Tutorial", Review of Polarography (JPN) 48, 209 (2002). CrossRef �P.K. Maharana, T. Srivastava, R. Jha, "Low index dielectric mediated surface plasmon resonance sens
本文的理论研究表明,基于Cu-Pt双金属层和BlueP/WS2混合纳米结构的高灵敏度表面等离子体共振生物传感器有可能用于角探测方法。基于传递矩阵法,优化了Cu和Pt的厚度以及BlueP/WS2层的数量,以获得最佳的灵敏度和FOM。优化后的Cu-Pt-BlueP/WS2杂化结构产生的灵敏度高达502°/RIU, FOM为128.7RIU,这种传感器在检测生物分子方面非常有用。全文:PDFAlmawgani, M.G. Daher, S.A. Taya, M. Mashagbeh, I. Colak。“基于mxene表面等离子体共振结构的牛奶脂肪浓度光学检测”,生物传感器12,535(2022)。CrossRef E. Kretschmann, H. Raether,“非辐射表面等离子体在光激发下的辐射衰减”,自然科学学报。A 23,2135(1968)。交叉参考M.G. Daher, Y. Trabelsi, Y.K. Prajapati, A. Panda, N.M. Ahmed, A.N.Z. Rashed。,“利用表面等离子体共振(SPR)纳米结构对恶性疟原虫感染红细胞(irbc)的高灵敏度检测”,量子电子学报,55,199(2023)。CrossRef A.H.M. Almawgani, M.G. Daher, S.A. Taya, M.M. Olaimat, A.R.H. Alhawari, I. Colak。,“基于spr的生物传感器对血浆浓度的检测”,《等离子体学报》17,1751(2022)。CrossRef Y. Saad, M. Selmi, M.H. Gazzah, a . bajaahzar, H. Belmabrouk,“铜基光纤SPR传感器的氧化层增强性能”,光学学报,19(2019)。CrossRef N.K. Sharma, S. Shukla, V. Sajal,“基于表面等离子体共振的光纤传感器:基于附加层铂的理论研究”,光学学报,2013,43(2017)。陈建军,陈建军,陈建军,“基于铂层的表面等离子体共振光纤传感器的灵敏度增强”,光学学报,36(4)(2015)。CrossRef S. Singh, A.K. Sharma, P. Lohia, D.K. Dwivedi,“氧化锌和蓝磷/MoS2异质结构表面等离子体共振生物传感器的灵敏度增强理论分析”,光学学报,24(4),16618(2021)。引用本文:刘宁,王世生,程清,庞斌,吕军,“高灵敏度蓝色磷烯/过渡金属二硫族化合物杂化纳米结构的SPR传感器”,等离子体学报,16(7)(2021)。CrossRef S. Shivangani, M.F. Alotaibi, Y. Al-Hadeethi, P. Lohia, S. Singh, D.K. Dwivedi, a . Umar, H.M. Alzayed, H. Algadi, S. Baskoutas,“提高al2o3 -镍纳米膜表面等离子体共振传感器灵敏度的数值研究”巴塞尔协议12,2205(2022)。CrossRef M. Yamamoto,“表面等离子体共振(SPR)理论:教程”,极谱学刊(JPN) 48, 209(2002)。P.K. Maharana, T. Srivastava, R. Jha,“基于石墨烯的低折射率介电介质表面等离子体共振传感器的近红外测量”,物理学报。D::。物理学报,47,38(2014)。CrossRef S. Pal, N. Pal, Y.K. Prajapati, J.P. Saini,“基于2D BlueP/MoS2和MXene异质结构的表面等离子体共振生物传感器的灵敏度分析”,John Wiley & Sons, Inc. 103(2020)。CrossRef S. Singh, A.K. Sharma, P. Lohia, D.K. Dwivedi,“异质结构蓝磷/MoS2和硅层对SPR生物传感器灵敏度的增强”,新兴。板牙。Res. 11,239(2022)。CrossRef R. Kumar, S. Pal, N. Pal, V. Mishra, Y.K. Prajapati,“基于黑磷- mxene杂化结构的高性能双金属表面等离子体共振生化传感器”,applied。理论物理。A 127, 1(2021)。CrossRef M. Setareh, H. Kaatuzian,“利用钛酸钡增强表面等离子体共振传感器的灵敏度”,《超晶格微结构》(cssci), 153,10(6)(2021)。引用本文:王淑娟,刘宁,程清,庞斌,吕军,“光学衰减全反射光谱中fe2o3 - Antimonene-Fe2O3-Copper层表面等离子体共振”,等离子体学报,16,559(2021)。CrossRef
{"title":"Theoretical analysis of a high-performance surface plasmon resonance biosensor using BlueP/WS2 over Cu-Pt bimetallic layer","authors":"Muthumanicam Myilsamy, Prabhakar Cecil Lordwin, Alagu Vibisha, Suresh Ponnan, Jaroszewicz Zbigniew, Rajesh Karupiya Balasundaram","doi":"10.4302/plp.v15i2.1206","DOIUrl":"https://doi.org/10.4302/plp.v15i2.1206","url":null,"abstract":"The present theoretical study exhibits the possibility of achieving extremely high sensitive surface plasmon resonance based biosensor comprising of Cu-Pt bimetallic layer and BlueP/WS2 hybrid nanostructure for angular interrogation method. Based of Transfer matrix method thickness of Cu and Pt as well as the number of BlueP/WS2 layer is optimized to obtain the best possible sensitivity and FOM. The well optimized Cu-Pt-BlueP/WS2 hybridstructure is found to generate sensitivity as high as 502°/RIU with FOM as 128.7RIU-1 such sensor is highly useful for detecting biomolecules. Full Text: PDF References\u0000\u0000A.H.M. Almawgani, M.G. Daher, S.A. Taya, M. Mashagbeh, I. Colak. \"Optical Detection of Fat Concentration in Milk Using MXene-Based Surface Plasmon Resonance Structure\", Biosensors 12, 535 (2022). CrossRef \u0000E. Kretschmann, H. Raether, \"Notizen: Radiative Decay of Non Radiative Surface Plasmons Excited by Light\", Z. Naturf. a 23, 2135 (1968). CrossRef \u0000M.G. Daher, Y. Trabelsi, Y.K. Prajapati, A. Panda, N.M. Ahmed, A.N.Z. Rashed., \"Highly sensitive detection of infected red blood cells (IRBCs) with plasmodium falciparum using surface plasmon resonance (SPR) nanostructure\", Opt. Quantum Electron. 55, 199 (2023). CrossRef \u0000A.H.M. Almawgani, M.G. Daher, S.A. Taya, M.M. Olaimat, A.R.H. Alhawari, I. Colak., \"Detection of Blood Plasma Concentration Theoretically Using SPR-Based Biosensor Employing Black Phosphor Layers and Different Metals\", Plasmonics 17,1751 (2022). CrossRef \u0000Y. Saad, M. Selmi, M.H. Gazzah, A. Bajahzar, H. Belmabrouk, \"Performance enhancement of a copper-based optical fiber SPR sensor by the addition of an oxide layer\", Optik 190, 1 (2019). CrossRef \u0000N.K. Sharma, S. Shukla, V. Sajal, \"Surface plasmon resonance based fiber optic sensor using an additional layer of platinum: A theoretical study\", Optik 133, 43 (2017). CrossRef \u0000S. Shukla, M. Rani, N.K. Sharma, V. Sajal, \"Sensitivity enhancement of a surface plasmon resonance based fiber optic sensor utilizing platinum layer\", Optik 126, 4636 (2015). CrossRef \u0000S. Singh, A.K. Sharma, P. Lohia, D.K. Dwivedi, \"Theoretical analysis of sensitivity enhancement of surface plasmon resonance biosensor with zinc oxide and blue phosphorus/MoS2 heterostructure\", Optik 244, 167618 (2021). CrossRef \u0000N. Liu, S. Wang, Q. Cheng, B. Pang, J. Lv, \"High Sensitivity in Ni-Based SPR Sensor of Blue Phosphorene/Transition Metal Dichalcogenides Hybrid Nanostructure\", Plasmonics 16, 1567 (2021). CrossRef \u0000S. Shivangani, M.F. Alotaibi, Y. Al-Hadeethi, P. Lohia, S. Singh, D.K. Dwivedi, A. Umar, H.M. Alzayed, H. Algadi, S. Baskoutas, \"Numerical Study to Enhance the Sensitivity of a Surface Plasmon Resonance Sensor with BlueP/WS2-Covered Al2O3-Nickel Nanofilms\", Nanomater. Basel 12, 2205 (2022). CrossRef \u0000M. Yamamoto, \"Surface Plasmon Resonance (SPR) Theory: Tutorial\", Review of Polarography (JPN) 48, 209 (2002). CrossRef \u0000P.K. Maharana, T. Srivastava, R. Jha, \"Low index dielectric mediated surface plasmon resonance sens","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":"48666787","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}
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