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Photoacoustics

出版年份:暂无数据 年文章数:322 投稿命中率: 开通期刊会员,数据随心看

出版周期:暂无数据 自引率:暂无数据 审稿周期: 开通期刊会员,数据随心看

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期刊简介

期刊简介
GetPortalImpactFactorByIdResp(projectId=1, id=fdad15856, cover=https://img.medsci.cn/images/journal/cover/2021/gLo_202109271316197970.jpg, fullname=Photoacoustics, abbr=PHOTOACOUSTICS, pyear=暂无数据, frequence=null, articleNumbers=322, citedSelf2015=null, acceptanceRate=null, submissionToAcceptance=null, averageReviewTime=暂无数据, reviewFee=null, pageFee=null, publishedRatio=2023年中国人文章占该期刊总数量暂无数据 (2022年为100.00%), issn=2213-5979, greenSci=https://www.greensci.net/search?kw=2213-5979, scijournal=https://www.scijournal.org/impact-factor-of-PHOTOACOUSTICS.shtml, medsciHotlightString=null, medsciHotlightRealtime=1.345, medsciHotlight=1.657, medsciHotlight5year=0.4704, citescore=8.9, hIndex=32, impactFactor=7.9, orgnization=Elsevier GmbH, orgnizationUrl=null, country=Germany, countryCn=德国, isOa=null, isOaString=不清楚, sciScie=null, bigclassCas=医学 2区[Top], smallclassCas=医学 2 区, website=https://www.journals.elsevier.com/photoacoustics/, websiteHits=311, guideForAuthor=https://www.elsevier.com/journals/photoacoustics/2213-5979/guide-for-authors, guideForAuthorHits=294, submitWebsite=https://www.editorialmanager.com/pacs/default.aspx, submitWebsiteHits=299, content=<p style="color: #53565a;">The aim of the open access <strong><em>Photoacoustics</em> journal (PACS)</strong> is to publish original research and review contributions within the fast-growing field of <strong>photoacoustics-optoacoustics-thermoacoustics</strong>, which exploits acoustical and ultrasonic phenomena excited by electromagnetic radiation for purposes of detection, visualization, and characterization of a variety of materials and biological tissues, including living organisms.<br />Many research directions in <strong>photoacoustics</strong>, especially <strong>biomedical optoacoustic imaging</strong> experience explosive growth in the 21st century. The wealth of investigated topics indicates that this field has developed a broad range of tools for fundamental and applied research. The enormous recent progress is greatly supported by the advances in laser technologies, <strong>ultrasound</strong> detection approaches, development of inverse theory, and fast reconstruction algorithms. This progress is also driven by a large number of unmet biological and medical needs that can be addressed by the unique contrast of molecular absorption available to <strong>photoacoustic - optoacoustic - thermoacoustic</strong> methods. These include pre-clinical research and clinical imaging of vasculature, tissue and disease physiology, drug efficacy, surgery guidance, and therapy monitoring. Correspondingly applications span the entire range of <strong>medical imaging</strong> and sensing applications including cancer, vascular diseases, brain neurophysiology, ophthalmology, and diabetes. Recent technological advances enabled cell trafficking applications and measurements of a multitude of other biological functions. The multidisciplinary nature of photoacoustics - optoacoustics - thermoacoustics is also evidenced by the growing contribution from chemistry and nanotechnology where a variety of novel biodegradable materials from nanoparticles to organic dyes, to targeted agents, theranostic probes and genetically expressed markers are being actively developed. Significant enhancement of the signal-to-noise ratio and tissue contrast in photoacoustic methods has been achieved employing these advanced materials.<br />While some of the spectroscopic and sensing applications in non-biomedical materials have reached a mature state, <em>Photoacoustics</em> supports the research community that develops novel industrial and environmental applications, <strong>nondestructive</strong> evaluation of materials and new <strong>ultrawideband transducers</strong> (piezoelectric, capacitive and optical) for sensitive detection of photoacoustic - optoacoustic - thermoacoustic signals.</p> <p style="color: #53565a;"><strong>The list of topics of interest includes (but is not limited to) the following:</strong></p> <ul style="color: #53565a;"> <li>Tomography and deep-tissue imaging</li> <li>Mesoscopy, microscopy, and nanoscopy</li> <li>Functional and molecular imaging and sensing</li> <li>Contrast agents, molecular probes, and nanoparticles</li> <li>Interactions with cells and tissues</li> <li>Pre-clinical imaging, clinical translation, and clinical applications</li> <li>Multi-modality systems involving light and sound</li> <li>Microwave induced ultrasound imaging and sensing</li> <li>Laser ultrasound methods and applications</li> <li>Physics and modeling of photoacoustic generation, propagation and detection</li> <li>Signal processing, advanced filtering and artifact removal</li> <li>Image reconstruction algorithms including deep learning</li> <li>Computer assisted diagnostics based on artificial intelligence</li> <li>Ultrawide-band ultrasound detectors, optical detectors of ultrasound</li> <li>Novel lasers and light delivery technologies for the generation of ultrasound</li> <li>Spectroscopy and analysis of compounds</li> <li>Nondestructive testing of materials</li> </ul> <p><br style="color: #53565a;" /><strong style="color: #53565a;">Keywords: PACS, photoacoustic, optoacoustic, thermoacoustic, laser ultrasound (supplemental keywords: imaging, sensing, monitoring, evaluation, tomography, microscopy, theranostics, contrast agents, nanotechnology).</strong></p>, totalCites=2551, brief=PHOTOACOUSTICS杂志暂不明确行业,暂不明确子行业的级别不明杂志, articleType=本刊接收类型不明, medsciHeat=黑红, medsciComment=PHOTOACOUSTICS在该细分领域可能是一流杂志,可能是创刊时间短或不是热门学科,整体来说,国内学者关注度仍然不够。对于投稿而言,建议多向"&abbr&"投稿,当然期刊也应该加强品牌宣传。, medsciExplanation=MedSci期刊指数是根据中国科研工作者(含医学临床,基础,生物,化学等学科)对SCI杂志的认知度,熟悉程度,以及投稿的量等众多指标综合评定而成。当然,具体的,您还可以结合“<a href='https://www.medsci.cn/sci/submit.do?id=fdad15856'>投稿经验系统</a>”,进行综合判断,这更是大家的实战经验,值得分享和参考。<br> 注意,上述MedSci期刊指数采用MedSci专利技术,由计算机系统自动计算,并给出建议,存在不准确的可能,仅供您投稿选择杂志时参考。, tags=null, citeScoreList=[GetImpactFactorCiteScoreListResponse(year=2020, citescore=8.9)], medsciIndexList=[GetImpactFactorMedsciIndexListResponse(year=2020, medsciHotlight=0.86), GetImpactFactorMedsciIndexListResponse(year=2021, medsciHotlight=1.492), GetImpactFactorMedsciIndexListResponse(year=2022, medsciHotlight=1.421), GetImpactFactorMedsciIndexListResponse(year=2023, medsciHotlight=1.231), GetImpactFactorMedsciIndexListResponse(year=2024, medsciHotlight=1.345)], citeScoreGradeList=[GetImpactFactorCiteScoreGradeResponse(smallClass=Medicine - Radiology, Nuclear Medicine and Imaging , rank=6/272), GetImpactFactorCiteScoreGradeResponse(smallClass=Physics and Astronomy - Atomic and Molecular Physics, and Optics , rank=15/173)], totalJcrAreaList=[], pmcUrl=https://www.ncbi.nlm.nih.gov/nlmcatalog?term=2213-5979[ISSN], pubmedUrl=https://www.ncbi.nlm.nih.gov/pubmed?cmd=search&term=Photoacoustics[ta], article_number=105, article_number_cn=45, earlyWarning=null, linkOutUrl=null, isJournalMember=false, unscrambleContent=null, dayViewCount=false, endexampletyle=暂无数据)
期刊名称
PHOTOACOUSTICS/Photoacoustics
ISSN
2213-5979
影响指数话题
预警等级
MedSci期刊指数
1.345 (MedSci实时期刊指数) | 0.4704 (5年期刊指数)
CiteScore值
8.9
h-index
32
h5-median
暂无数据
出版社/管理机构
杂志由 Elsevier GmbH 出版或管理
出版国家/地区
Germany 德国
出版周期
暂无数据
出版年份
暂无数据
是否OA
不清楚
被收录情况
暂无数据
JCR分区
暂无数据
中科院分区
大类:医学 2区[Top]
小类:医学 2 区