Foran G J, Gentle I R, Garrett R F, Creagh D C, Peng J B, Barnes G T
Australian Nuclear Science and Technology Organisation, PMB 1, Menai, NSW 2234,Australia.
J Synchrotron Radiat. 1998 Mar 1;5(Pt 2):107-11. doi: 10.1107/S0909049597018128.
A multiple imaging-plate (IP) detector system and focusing monochromator have been developed and successfully applied to the time-resolved study of phase transitions in Langmuir-Blodgett (LB) films by grazing-incidence X-ray diffraction (GIXD). The first reported application of imaging plates to a GIXD study was carried out by our group and proved to be very successful in the determination of thin-film structure [Foran, Peng, Steitz, Barnes & Gentle (1996). Langmuir, 12, 774-777]. To extend the capabilities of this system, an IP camera was designed and built which can accommodate up to 13 IPs (40 x 20 cm) inside the vacuum chamber of the main diffractometer at the Australian Beamline at the Photon Factory. The camera allows the enclosed IPs to be successively exposed and stored inside the diffractometer for later scanning. The focusing monochromator employed in this technique combines fixed exit-beam height with sagittal focusing of the second crystal and delivers a gain in flux of >/=20 times when measured through a 0.1 x 0.1 mm aperture. The utility of the system incorporating the IP camera and the focusing monochromator has been demonstrated through the study of temperature-dependent phase transitions in LB films of metal fatty acids.
已开发出一种多成像板(IP)探测器系统和聚焦单色仪,并成功应用于通过掠入射X射线衍射(GIXD)对Langmuir-Blodgett(LB)膜中相变的时间分辨研究。成像板在GIXD研究中的首次报道应用是由我们小组进行的,并且在确定薄膜结构方面被证明非常成功[Foran, Peng, Steitz, Barnes & Gentle (1996). Langmuir, 12, 774 - 777]。为了扩展该系统的功能,设计并制造了一台IP相机,它可以在光子工厂澳大利亚光束线主衍射仪的真空室内容纳多达13个IP(40×20厘米)。该相机允许封闭的IP在衍射仪内依次曝光并存储,以便稍后扫描。该技术中使用的聚焦单色仪将固定的出射光束高度与第二晶体的弧矢聚焦相结合,当通过0.1×0.1毫米孔径测量时,通量增益大于或等于20倍。通过对金属脂肪酸LB膜中与温度相关的相变研究,证明了结合IP相机和聚焦单色仪的系统的实用性。