The efficient method of design optical element for low-intensity obstruction light

被引:0
|
作者
Bogdanov, Nikolay N. [1 ]
Potemin, Igor S. [1 ]
Zhdanov, Dmitry D. [1 ]
Wang, Yan [1 ]
机构
[1] ITMO Univ, 49 Kronverksky Pr, St Petersburg 197101, Russia
来源
OPTICAL DESIGN AND TESTING X | 2020年 / 11548卷
关键词
Nonimaging optics; freeform surfaces; obstruction light; light engineering; optical design; LENS;
D O I
10.1117/12.2574098
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
The study addresses the problem of designing an optical system with freeform surface elements. It proposes the modification of the Light Energy Mapping Design Method for the task of designing an optical element for low-intensity obstruction light. Also, there is an algorithm for calculating optical elements described for such devices. The results of calculating and virtual prototyping of devices designed by the proposed method.
引用
收藏
页数:10
相关论文
共 50 条
  • [21] Performances of perovskite solar cells at low-intensity light irradiation
    Zhu, Shusheng
    Li, Yang
    SOLID-STATE ELECTRONICS, 2020, 173
  • [22] ESTROGEN FLUOROIMMUNOASSAY WITH A FLUORIMETER DESIGNED FOR LOW-INTENSITY LIGHT DETECTION
    ELJABRI, J
    DELAUZON, S
    CITTANOVA, N
    GERVAIS, P
    MUGNIER, J
    POUGET, J
    VALEUR, B
    ANALYTICA CHIMICA ACTA, 1989, 227 (01) : 129 - 134
  • [23] Correction of Aftereffects of Ionizing Radiation by Exposure to Low-Intensity Light
    A. P. Bavrina
    V. A. Monich
    S. L. Malinovskaya
    V. S. Ermolaev
    E. A. Druzhinin
    S. S. Kuznetsov
    Bulletin of Experimental Biology and Medicine, 2014, 156 : 663 - 664
  • [24] LOW-INTENSITY OPTICAL EMISSIONS FROM THE INTERSTELLAR MEDIUM.
    Reynolds, Ronald J.
    1600,
  • [25] ALAS/GAAS MULTILAYERED STRUCTURES AS LOW-INTENSITY OPTICAL MEDIA
    KNIGGE, S
    WICKE, H
    NIEDERLAND, D
    JAGER, D
    OPTICAL COMPUTING, 1995, 139 : 565 - 568
  • [26] Low-intensity UV effects on optical constants of PMMA film
    Rashidian, M.
    Dorranian, D.
    JOURNAL OF THEORETICAL AND APPLIED PHYSICS, 2014, 8 (02)
  • [27] Precorrection: An Effective, Efficient, Low-Intensity Strategy to Support Student Success
    Ennis, Robin Parks
    Lane, Kathleen Lynne
    Menzies, Holly M.
    Owens, Penney Patterson
    BEYOND BEHAVIOR, 2018, 27 (03) : 146 - 152
  • [28] Application of a low-intensity explosive loading method to ammunition Dismantling
    Golubev V.K.
    Medvedkin V.A.
    Strength of Materials, 2001, 33 (06) : 605 - 606
  • [29] Influence of low-intensity light on phototactic behaviour of Schizothorax oconnori Lloyd
    Xu, Jiawei
    Lin, Chenyu
    Dai, Huichao
    Mao, Jingqiao
    Ke, Senfan
    Yin, Rucheng
    Zhang, Ning
    Liu, Yan
    Shi, Xiaotao
    RIVER RESEARCH AND APPLICATIONS, 2020, 36 (02) : 296 - 304
  • [30] Sound improves the discrimination of low-intensity light in the visual cortex of rabbits
    Polyanskii V.B.
    Alymkulov D.E.
    Evtikhin D.V.
    Chernyshev B.V.
    Neuroscience and Behavioral Physiology, 2013, 43 (2) : 160 - 167
12345