Heliospheric Tomography (with SMEI data)

A new Heliospheric Tomography model developed for Solar Mass Ejection Imager (SMEI) (The Air Force/NASA instrument, launched January 6 2003) is now available at CCMC. SMEI is a joint project of University of California San Diego, Boston College, the University of Birmingham (UK), and the Air Force Research Laboratory. SMEI is recording whole sky data on each 102-minute orbit.

HELIOSPHERE

true

Contributor(s)

Initial contribute: 2020-07-02

Authorship

:  
CASS/UCSD (SMEI)
:  
View
Is authorship not correct? Feed back

Classification(s)

Application-focused categoriesNatural-perspectiveSpace-earth regions

Detailed Description

English {{currentDetailLanguage}} English

Quoted from: https://ccmc.gsfc.nasa.gov/models/models_at_glance.php 

Model Description
A new Heliospheric Tomography model developed for Solar Mass Ejection Imager (SMEI) (The Air Force/NASA instrument, launched January 6 2003) is now available at CCMC. SMEI is a joint project of University of California San Diego, Boston College, the University of Birmingham (UK), and the Air Force Research Laboratory. SMEI is recording whole sky data on each 102-minute orbit.

The 3-D reconstruction technique incorporates a kinematic solar wind model and tomographically fit this to SMEI Thomson scattering brightness observations (Jackson et al., 2008). The SMEI time-dependent tomography provides densities at nearly three-times better resolutions in space and time than the IPS. The SMEI analysis allows the 3-D reconstruction of CMEs and other heliospheric structures such as corotating interaction regions (CIRs). The SMEI analysis incorporates IPS velocities when these data are available, and allows their presentation along with density.

Model Input
Remote sensing SMEI data from CASS/UCSD.

Model Output
Solar wind density and velocity throughout the inner heliosphere.

CCMC Contact(s)
Aleksandre Taktakishvili
301-286-4521

模型元数据

{{htmlJSON.HowtoCite}}

B. Jackson, P. Hick (2020). Heliospheric Tomography (with SMEI data), Model Item, OpenGMS, https://geomodeling.njnu.edu.cn/modelItem/c7a13fcf-f5be-4652-b289-4b313012bbf8
{{htmlJSON.Copy}}

Contributor(s)

Initial contribute : 2020-07-02

{{htmlJSON.CoContributor}}

Authorship

:  
CASS/UCSD (SMEI)
:  
View
Is authorship not correct? Feed back

QR Code

×

{{curRelation.overview}}
{{curRelation.author.join('; ')}}
{{curRelation.journal}}









{{htmlJSON.RelatedItems}}

{{htmlJSON.LinkResourceFromRepositoryOrCreate}}{{htmlJSON.create}}.

Drop the file here, orclick to upload.
Select From My Space
+ add

{{htmlJSON.authorshipSubmitted}}

Cancel Submit
{{htmlJSON.Cancel}} {{htmlJSON.Submit}}
{{htmlJSON.Localizations}} + {{htmlJSON.Add}}
{{ item.label }} {{ item.value }}
{{htmlJSON.ModelName}}:
{{htmlJSON.Cancel}} {{htmlJSON.Submit}}
名称 别名 {{tag}} +
系列名 版本号 目的 修改内容 创建/修改日期 作者
摘要 详细描述
{{tag}} + 添加关键字
* 时间参考系
* 空间参考系类型 * 空间参考系名称

起始日期 终止日期 进展 开发者
* 是否开源 * 访问方式 * 使用方式 开源协议 * 传输方式 * 获取地址 * 发布日期 * 发布者



编号 目的 修改内容 创建/修改日期 作者





时间分辨率 时间尺度 时间步长 时间范围 空间维度 格网类型 空间分辨率 空间尺度 空间范围
{{tag}} +
* 类型
图例


* 名称 * 描述
示例描述 * 名称 * 类型 * 值/链接 上传


{{htmlJSON.Cancel}} {{htmlJSON.Submit}}
Title Author Date Journal Volume(Issue) Pages Links Doi Operation
{{htmlJSON.Cancel}} {{htmlJSON.Submit}}
{{htmlJSON.Add}} {{htmlJSON.Cancel}}

{{articleUploading.title}}

Authors:  {{articleUploading.authors[0]}}, {{articleUploading.authors[1]}}, {{articleUploading.authors[2]}}, et al.

Journal:   {{articleUploading.journal}}

Date:   {{articleUploading.date}}

Page range:   {{articleUploading.pageRange}}

Link:   {{articleUploading.link}}

DOI:   {{articleUploading.doi}}

Yes, this is it Cancel

The article {{articleUploading.title}} has been uploaded yet.

OK
{{htmlJSON.Cancel}} {{htmlJSON.Confirm}}