第九届激光与光电子国际研讨会(LOC 2024)
The 9th Int'l Laser and Optoelectronics Conference(LOC 2024)
时间:2024年12月6-8日
地点:中国 · 三亚
会议官网:
https://www.academicx.org/LOC/2024/投稿邮箱:
workshop12@163.com (
editorrolin@gmail.com)
△. 大会简介
第九届激光与光电子国际研讨会(LOC 2024)将于2024年12月6-8日在三亚举行。本届大会将继续遵循学术性、国际性的原则,特邀国内外激光与光电子学领域内的学者专家前来参会,并做出精彩的报告。
激光与光电子国际研讨会是由吉林省分析测试技术学会光谱分会、工程信息研究院、科研出版社、OALab等高校及科研单位共同协办,在领域内享受盛名的国际学术研讨会之一,大会旨在为行业内专家和学者分享技术进步和业务经验,聚焦激光器、放大器、微/纳米光子器件,材料激光加工,太赫兹技术与应用,超快光学、光电器件及其应用,短脉冲、固态、半导体、光纤、波导光源和器件,主动光学传感和计量等研究领域的前沿研究,提供一个交流的平台。
△. 参会方式
1、全文参会(参会 + 全文发表 + 报告)
投递全文并参会,录用的文章发表在开源期刊上,被知网学术、谷歌学术等收录;
一篇文章的注册费含一位作者的参会费用,将安排做10-15分钟的口头报告;
2、摘要参会(参会 + 摘要 + 报告 )
投递摘要并参会,安排10-15分钟口头报告;
3、听众参会:无报告仅参会
注:如因特殊情况无法到场参会,可提供海报或录制的报告视频。会后我们将发送照片,并办理发票、邀请函、参会证明、会议期刊、会议证等物资的邮寄。
△. 文章出版
出版物:所有被会议录用的英文稿件将会发表在国际英文开源期刊
检索类型:知网及谷歌学术收录
投稿须知:
1. 如果您只是参加会议作报告,不需要发表文章,请直接投递英文摘要即可。
2. 全文篇幅建议8-10页(按照模板格式,带图和参考文献),超过10页需缴纳超页费。摘要投稿无格式要求,具备标题、内容、关键词、作者信息即可,篇幅建议控制在1页以内,最长不超过2页。
3. 投稿之后3-5个工作日内您会收到审核结果,如逾期未收到邮件通知,请您尽快联系我们。
4. 可投中文稿件,文章题目、摘要,关键词需要中英双语,正文部分为中文(可联系我们索取模板文档)。参会时口头报告/海报张贴必须做英文的。
△. 大会日程(供参考)
2024年12月6日 - 大会签到(发指南、期刊、参会证、餐券等相关物资)
2024年12月7日 - 特邀演讲嘉宾报告
2024年12月8日 - 作者报告及海报展示
该会议征文涉及领域包括(但不限于):
Lasers, amplifiers, micro/nano-photonic devices
Solid-state-, liquid and gas lasers, technology and devices
Fiber lasers, cw and pulsed; amplification, ultra wideband, mode-locked, nonlinear effects
High Energy/Average Power Lasers
Micro fabricated devices, on-chip applications
Nonlinear effects in micro and nano devices
Laser Processing of Materials
Femtosecond laser processing
Laser micro- and nanoprocessing
Laser Nanopatterning
Laser Synthesis of Nanomaterials
Laser Direct Write
Laser assisted fabrication of novel opto-electronic devices
Terahertz Technologies and Applications
Ultrafast time-domain systems
Direct generation using terahertz lasers
Cw generation based on nonlinear optical mixing
New terahertz measurement techniques and instrumentation
Advances in imaging configurations, detector technologies, and terahertz optical components
Terahertz optical measurements
Applications using terahertz radiation for spectroscopy, sensing, and imaging
Ultrafast Optics, Optoelectronic Devices and Applications
Optical phase control in ultrafast laser systems
Ultrafast optoelectronic and electro-optic materials, devices, and systems
Ultrafast measurement techniques
Applications of ultrafast technology
Ultrafast amplification and schemes
Short-pulse, solid-state, semiconductor, fiber, waveguide optical sources and devices
Fiber-optic sensor and networks
White LED and related technologies
Electro-optic modulators and related advanced modulation format technologies
Advanced radio-over-fiber devices and related technologies
Intelligent optoelectronic devices and optical switching
Grating-based devices and related technologies
Slow and fast light devices and related technologies
Free-space communications related devices and technologies
Systems or devices for optical and digital image processing
Biophotonics and Optofluidics
Laser medical diagnostics and therapeutics
Biosensing including spectroscopic optical diagnostics
Optical coherence tomography
Photoacoustic techniques
Optics in biotechnology
Lab-on-chip devices
Microfluidically tunable or reconfigurable optical and photonic systems
Optofluidic assembly and lithographic techniques
Active Optical Sensing and Metrology
New optical device, s, instruments, and technologies for precision measurements
Optical frequency standards; length, distance, and dimensional metrology; lasers, supercontinua, and broadband sources
Frequency-comb generation, control, and applications; carrier-envelope phase control
Chemical and biological agent detection and identification
Atmospheric monitoring, indoor, outdoor, industrial, combustion, emissions
New: Laser spectroscopy for Breath ysis