Abstract Today's advanced science and technology has witnessed extensive efforts put forth by researchers whose persistent work has been continuing quite consistently to find high shock resistant and technologically important device materials. Ferrites are right at the top in terms of contribution for the making of modern electronic and spintronics devices which are predominantly used in magnetic sensors as well as data storage applications. On the other hand, several ferrite materials do not fulfill the real practical requirements of the device engineers even though they have the required functional properties for device fabrications. Hence, the journey of finding ideal materials for device fabrication is still an ongoing arduous process. On this context, we have made systematic investigation of unearthing and understanding the properties and especially the stability of MnFe2O4 NPs at shock wave loaded conditions. Powder X-ray diffractometer (PXRD), Ultra-Violet diffuse reflectance spectroscopy (UV-DRS) and vibrating sample magnetometer (VSM) techniques have been undertaken so as to find out the crystallographic, electronic and magnetic phase stabilities at shocked conditions. The observed XRD, UV-DRS and VSM studies reveal that the title ferrite NPs has high shock resistant behavior so that it is suggested for the application of device fabrication.

中文翻译：

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在冲击条件下评估 MnFe2O4 纳米晶体材料的晶体和磁相稳定性

摘要 当今先进的科学技术见证了研究人员的广泛努力，他们的不懈努力一直在持续不断地寻找高抗震性和技术上重要的设备材料。铁氧体在制造现代电子和自旋电子器件方面处于领先地位，这些器件主要用于磁传感器以及数据存储应用。另一方面，一些铁氧体材料即使具有器件制造所需的功能特性，也不能满足器件工程师的实际实际要求。因此，为器件制造寻找理想材料的过程仍然是一个持续的艰巨过程。在此背景下，我们对 MnFe2O4 NPs 在冲击波加载条件下的特性，特别是稳定性进行了系统的挖掘和了解。已采用粉末 X 射线衍射仪 (PXRD)、紫外漫反射光谱仪 (UV-DRS) 和振动样品磁强计 (VSM) 技术来确定冲击条件下的晶体、电子和磁相稳定性。观察到的 XRD、UV-DRS 和 VSM 研究表明，标题铁氧体 NPs 具有高抗震性能，因此建议用于器件制造的应用。已经采用紫外漫反射光谱 (UV-DRS) 和振动样品磁强计 (VSM) 技术来确定冲击条件下的晶体、电子和磁相稳定性。观察到的 XRD、UV-DRS 和 VSM 研究表明，标题铁氧体 NPs 具有高抗震性能，因此建议用于器件制造的应用。已经采用紫外漫反射光谱 (UV-DRS) 和振动样品磁强计 (VSM) 技术来确定冲击条件下的晶体、电子和磁相稳定性。观察到的 XRD、UV-DRS 和 VSM 研究表明，标题铁氧体 NPs 具有高抗震性能，因此建议用于器件制造的应用。