1) fission-track length distribution
裂变径迹长度分布
2) Fission track length
裂变径迹封闭长度分布
3) fission track analysis
裂变径迹分析
1.
Apatite fission track analysis and thermal history modeling of nine sandstone samples collected from diverse structure belts of the Bogda Mountain reveal an orogenic process of upper crust and a differential exhumation history of the Bogda Mountain since Late Mesozoic.
博格达山山前不同构造带内9个砂岩样品的裂变径迹分析与热史模拟表明,博格达山浅部造山过程以前展式(盖层滑脱带内)与后展式(基底卷入带内)同时发育的逆冲构造扩展模式为特征;博格达山晚中生代以来的多期构造抬升作用主要发生在155~135Ma、90~70Ma、约40Ma和约10Ma等4期,其隆升剥蚀史主要经历了燕山早期的初始整体隆升(剥蚀量为0。
4) fission track
裂变径迹
1.
Fission track study on the metallogenetic age of Xiayingfang gold deposit in eastern Hebei;
河北下营坊金矿成矿时代的裂变径迹研究
2.
Fission track etching condition of tourmaline;
电气石裂变径迹蚀刻条件研究
3.
Fission track dating and thermal history of Habahe rock body in Altai;
阿尔泰哈巴河岩体的裂变径迹年龄及热历史
5) Fission-track
裂变径迹
1.
Apatite fission-track records of the tectonic uplift of the central segment fo the Kunlun Mountains on the northern margin of the Qinghai-Tibet Plateau;
青藏高原北缘昆仑山中段构造隆升的磷灰石裂变径迹记录
2.
The fission-track dating method has been widely used to constrain the exhumation of mountains and tectono-thermal evolution of basins.
本文利用砂岩中磷灰石的裂变径迹方法,研究了伊犁盆地中生代抬升-剥露事件。
3.
It reflects progress in understanding the temperature dependence of fission-track annealing and in interpreting the information contained in fission-track length distributions.
裂变径迹技术是一种以磷灰石和锆石等矿物为定年对象的低温热年代学方法,特别适用于研究上地壳岩石冷却剥露的时间和过程。
6) FTLA
径迹长度分析
补充资料:径迹长度
分子式:
CAS号:
性质: 径迹原初表面至所产生的圆锥体顶点之距离,是重要的径迹参量之一。可由入射角、锥角和径迹投影长度求得。
CAS号:
性质: 径迹原初表面至所产生的圆锥体顶点之距离,是重要的径迹参量之一。可由入射角、锥角和径迹投影长度求得。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条