1、投稿方式:在线投稿。 2、期刊网址:https://www.springer.com/journal/13360 3、投稿网址:https://www.editorialmanager.com/epjp 4、官网邮箱:epjplus.bologna@sif.it(编辑部) 5、期刊刊期:月刊,一年出版12期。 2022年8月25日星期三The European Physical Journal Plus《欧洲物理杂志+》相关杂志 The...
《European Physical Journal Plus》是一本专注于PHYSICS, MULTIDISCIPLINARY领域的English学术期刊,创刊于2011年,由Springer Berlin Heidelberg出版商出版,出版周期1 issue/year。该刊发文范围涵盖PHYSICS, MULTIDISCIPLINARY等领域,旨在及时、准确、全面地报道国内外PHYSICS, MULTIDISCIPLINARY工作者在该领域的科学研究等工作中取得...
the european physical journal plus 投稿 latex 模板 The European Physical Journal Plus (EPJ Plus) is a leading peerreviewed scientific journal that publishes original research articles, reviews, and letters in all aspects of physics. The journal covers a broad range of physics topics, including ...
The European Physical Journal - Plus (EPJ Plus) distributes and archives material required to document, assess, validate and reconstruct in detail the body of knowledge in the physical and related sciences. The scope encompasses a broad landscape of fields and disciplines in the physical and relate...
期刊语言:英语 定价:0 地址:SPRINGER HEIDELBERG , TIERGARTENSTRASSE 17, HEIDELBERG, GERMANY, D-69121 期刊邮箱: 投稿网址:https://www.editorialmanager.com/epjp 期刊网址:https://www.springer.com/journal/13360 出版商网址:http://www.springer.com ...
The scope of The European Physical Journal - Plus (EPJ Plus) encompasses all aspects of fundamental and applied physics, including energy, environment, ...
The European Physical Journal Plus好像是新出来的杂志,到底是研究哪方面的呢,容易中吗,谢谢大家啊 [...
Methodological approach for in situ spectroscopic analysis of modern reverse paintings on glass: A case study of Kreuzabnahme (1914/15) - an outstanding example by Carlo Mense Simon Steger,Simone Bretz,Heike Stege,Oliver HahnArticle:64 Pageof2...
下面是一个简单的LaTeX模板,适用于《The European Physical Journal Plus》: ``` \documentclass{article} \usepackage{epjplus} \begin{document} \title{Title of Your Paper} \author{Name of Author(s)} \institute{Affiliation(s) of Author(s)} \date{\today} \maketitle \begin{abstract} This is th...
为了研究PZT-5H在− 40至25°C下的动态力学和电响应特性,测量了PZT-5H在不同温度下的静态电参数,并在不同温度和冲击速度下进行了霍普金森棒实验通过使用自己建立的低温机电测试系统。通过实验获得了PZT-5H的电阻率和相对介电常数在− 40至25°C之间的变化,并且根据Debye的理论获得了PZT-5H的弛豫时间。结合...