中国科学院机构知识库网格
Chinese Academy of Sciences Institutional Repositories Grid
首页 机构 成果 学者
  
  1. CAS IR Grid
机构
采集方式
内容类型
发表日期
学科主题
筛选

浏览/检索结果: 共54条,第1-10条 帮助

条数/页: 排序方式:
A tabletop experimental system for investigating ultrafast atomic dynamics based on femtosecond extreme ultraviolet photons 期刊论文  OAI收割
ACTA PHYSICA SINICA, 2020, 卷号: 69, 期号: 23, 页码: 8
作者:  Hai Bang;  Zhang Shao-Feng;  Zhang Min;  Dong Da-Pu;  Lei Jian-Ting
  |  收藏  |  浏览/下载:41/0  |  提交时间:2021/12/13
Direct Coulomb explosion of N2O2+ induced by monochromatic extreme ultraviolet photons at 38.5 eV* 期刊论文  OAI收割
CHINESE PHYSICS B, 2020, 卷号: 29, 期号: 6, 页码: 5
作者:  Zhang, Min;  Najjari, B.;  Hai, Bang;  Zhao, Dong-Mei;  Lei, Jian-Ting
  |  收藏  |  浏览/下载:22/0  |  提交时间:2022/01/13
Recent wetting trend in China from 1982 to 2016 and the impacts of extreme El Nino events 期刊论文  OAI收割
INTERNATIONAL JOURNAL OF CLIMATOLOGY, 2020, 页码: 17
作者:  Yan, Hao;  Wang, Shao-Qiang;  Wang, Jun-Bang;  Guo, An-Hong;  Zhu, Zai-Chun
  |  收藏  |  浏览/下载:25/0  |  提交时间:2021/03/18
基于法布里-珀罗干涉仪的瑞利-米散射测风激光雷达研究 期刊论文  OAI收割
中国激光, 2020, 卷号: 47
作者:  庄鹏;  沈法华;  王邦新;  谢晨波;  邵甲第
  |  收藏  |  浏览/下载:29/0  |  提交时间:2021/03/15
Prospects for a multi-TeV gamma-ray sky survey with the LHAASO water Cherenkov detector array 期刊论文  OAI收割
中国物理C:英文版, 2020, 卷号: 44.0, 期号: 006, 页码: 123
作者:  FAharonian;  VAlekseenko;  An Q(安琪);  Axikegu;  Bai LX(白立新)
  |  收藏  |  浏览/下载:69/0  |  提交时间:2021/12/06
片状氧化铝的熔盐法制备关键参数 期刊论文  OAI收割
化工进展, 2020, 卷号: 40, 期号: 08, 页码: 4187-4195
作者:  张鹤;  邵国强;  史和邦;  吴昌梓;  吴昊
  |  收藏  |  浏览/下载:0/0  |  提交时间:2023/06/08
Multi-model analysis of climate impacts on plant photosynthesis in China during 2000-2015 期刊论文  OAI收割
INTERNATIONAL JOURNAL OF CLIMATOLOGY, 2019, 卷号: 39, 期号: 15, 页码: 5539-5555
作者:  Yan, Hao;  Wang, Shao-Qiang;  Cao, Yun;  Xu, Ling-Ling;  Wu, Men-xin
  |  收藏  |  浏览/下载:34/0  |  提交时间:2020/05/19
Tired Light Denies the Big Bang N2 专著章节/文集论文  OAI收割
出自: Redefining Standard Model Cosmology, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK, London, EC3R 6AF, UK:IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, IntechOpen, 2019
作者:  Shao, Ming-Hui;  Wang, Na;  Gao, Zhi-Fu
  |  收藏  |  浏览/下载:246/0  |  提交时间:2020/01/19
Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  Tired Light  Cosmological Redshift  Lorentz Theory  Big Bang  Cmbr  Olbers' Paradox  Energy Loss  Photons  
Insights into the local structure of dopants, doping efficiency, and luminescence properties of lanthanide-doped cspbcl3 perovskite nanocrystals 期刊论文  iSwitch采集
Journal of materials chemistry c, 2019, 卷号: 7, 期号: 10, 页码: 3037-3048
作者:  Ma, Ju-Ping;  Chen, Ya-Meng;  Zhang, Lu-Min;  Guo, Shao-Qiang;  Liu, Jian-Dang
收藏  |  浏览/下载:140/0  |  提交时间:2019/04/22