{"count":11,"on_page":1,"offset":3,"next_page":2,"comments":[{"JunoCommentID":"669","Comment":"
That's cool! Have a safe flight and clear sky over there! Greetings!<\/p>","JunoMisc":"0","R_VaultID":null,"Likes":"0","Flags":"1","AdminApproved":"1","ApprovedBy":"23","AdminRemoved":"0","R_JunoUserID":"4948","R_JunoPOIID":null,"R_JunoCampaignID":null,"R_JunoCommentID":null,"R_TopLevelCommentID":"0","hasReplies":"0","Advanced":"0","R_JunoVoteRound":"4","R_AnalysisID":"0","IsRemoved":"0","RemovedBy":"2","UpdatedTS":"2020-07-13 22:38:04","InsertedTS":"2017-05-05 01:01:59","Nickname":"Mahalingam-07","specialist":"0","Media":[],"Replies":[],"nice_date":"2017-05-05 01:01 UT","commentMarkup":"
That's cool! Have a safe flight and clear sky over there! Greetings!<\/p><\/div>
Wonder why the dark diagonals aren't mirrored in the south?<\/p>","JunoMisc":"0","R_VaultID":null,"Likes":"0","Flags":"1","AdminApproved":"1","ApprovedBy":"23","AdminRemoved":"0","R_JunoUserID":"7562","R_JunoPOIID":null,"R_JunoCampaignID":null,"R_JunoCommentID":null,"R_TopLevelCommentID":"0","hasReplies":"0","Advanced":"0","R_JunoVoteRound":"4","R_AnalysisID":"0","IsRemoved":"0","RemovedBy":"2","UpdatedTS":"2020-07-13 22:38:04","InsertedTS":"2017-05-04 21:16:32","Nickname":" Danae-67","specialist":"0","Media":[],"Replies":[],"nice_date":"2017-05-04 21:16 UT","commentMarkup":"
Wonder why the dark diagonals aren't mirrored in the south?<\/p><\/div>
... it's your voting for POIs 166, 539, 830, and\/or 1182, which extends the north polar time lapse sequence, and POIs 1071, 1131, and\/or 1183 for extending the south polar sequence. Thanks!<\/p>","JunoMisc":"0","R_VaultID":null,"Likes":"0","Flags":"1","AdminApproved":"1","ApprovedBy":"23","AdminRemoved":"0","R_JunoUserID":"4657","R_JunoPOIID":null,"R_JunoCampaignID":null,"R_JunoCommentID":null,"R_TopLevelCommentID":"0","hasReplies":"0","Advanced":"0","R_JunoVoteRound":"4","R_AnalysisID":"0","IsRemoved":"0","RemovedBy":"2","UpdatedTS":"2020-07-13 22:38:04","InsertedTS":"2017-05-04 11:56:52","Nickname":"Maquet-80","specialist":"0","Media":[],"Replies":[],"nice_date":"2017-05-04 11:56 UT","commentMarkup":"
... it's your voting for POIs 166, 539, 830, and\/or 1182, which extends the north polar time lapse sequence, and POIs 1071, 1131, and\/or 1183 for extending the south polar sequence. Thanks!<\/p><\/div>
For PJ06, I'm most interested in extending the polar time lapse sequences further to the respective edge of the polar haze disks. By images from previous perijoves, I'm rather sure, that we can obtain information about the dynamics down to latitudes between 50 and 60 deg. PJ06 may be one of few opportunities to cover the dynamics of this large range of latitudes in a seamless way. The zones around edge of the haze disks are particularly turbulent. I'm expecting impressive image products. And a dense time-spacing, as dense as JunoCam allows, will show the edge of the haze from a number of viewing angles, offering the opportunity to obtain kind of a tomogram, which will tell more about the structure of the haze. I'm also hoping vor clues about the connection between FFRs, haze, the highly turbulent zone full of vortices around the haze disk, and Jupiter's differential rotation.<\/p>","JunoMisc":"0","R_VaultID":"8872","Likes":"0","Flags":"1","AdminApproved":"1","ApprovedBy":"23","AdminRemoved":"0","R_JunoUserID":"4657","R_JunoPOIID":null,"R_JunoCampaignID":null,"R_JunoCommentID":null,"R_TopLevelCommentID":"0","hasReplies":"0","Advanced":"0","R_JunoVoteRound":"4","R_AnalysisID":"0","IsRemoved":"0","RemovedBy":"2","UpdatedTS":"2020-07-13 22:38:04","InsertedTS":"2017-05-04 11:24:50","Nickname":"Maquet-80","specialist":"0","Media":[],"Replies":[],"nice_date":"2017-05-04 11:24 UT","has_img":true,"img_data":{"id":"8872","alt":"","img_class":"","original":"https:\/\/d2xkkdgjnsfvb0.cloudfront.net\/Vault\/VaultOutput?ID=8872&Interlaced=1&ts=1709753150","src_set":{"original":"https:\/\/d2xkkdgjnsfvb0.cloudfront.net\/Vault\/Thumb?VaultID=8872&Interlaced=1&Mode=R&ResX=960&ResY=400&OutputFormat=jpg&Quality=90&ts=1709753150","lg":"https:\/\/d2xkkdgjnsfvb0.cloudfront.net\/Vault\/Thumb?VaultID=8872&Interlaced=1&Mode=R&ResX=960&OutputFormat=jpg&Quality=90&ts=1709753150","lgx2":"https:\/\/d2xkkdgjnsfvb0.cloudfront.net\/Vault\/Thumb?VaultID=8872&Interlaced=1&Mode=R&ResX=1920&OutputFormat=jpg&Quality=50&ts=1709753150","sm":"https:\/\/d2xkkdgjnsfvb0.cloudfront.net\/Vault\/Thumb?VaultID=8872&Interlaced=1&Mode=R&ResX=480&OutputFormat=jpg&Quality=75&ts=1709753150","smx2":"https:\/\/d2xkkdgjnsfvb0.cloudfront.net\/Vault\/Thumb?VaultID=8872&Interlaced=1&Mode=R&ResX=960&OutputFormat=jpg&Quality=75&ts=1709753150","has_img":true},"lg":"https:\/\/d2xkkdgjnsfvb0.cloudfront.net\/Vault\/Thumb?VaultID=8872&Interlaced=1&Mode=R&ResX=960&OutputFormat=jpg&Quality=90&ts=1709753150","lgx2":"https:\/\/d2xkkdgjnsfvb0.cloudfront.net\/Vault\/Thumb?VaultID=8872&Interlaced=1&Mode=R&ResX=1920&OutputFormat=jpg&Quality=50&ts=1709753150","sm":"https:\/\/d2xkkdgjnsfvb0.cloudfront.net\/Vault\/Thumb?VaultID=8872&Interlaced=1&Mode=R&ResX=480&OutputFormat=jpg&Quality=75&ts=1709753150","smx2":"https:\/\/d2xkkdgjnsfvb0.cloudfront.net\/Vault\/Thumb?VaultID=8872&Interlaced=1&Mode=R&ResX=960&OutputFormat=jpg&Quality=75&ts=1709753150","has_img":true,"max_w":"960px","max_h":"400px","max_wrap_perc_at_16_9":135,"aspect_perc":80,"mime":"image\/png","download":"https:\/\/d2xkkdgjnsfvb0.cloudfront.net\/Vault\/VaultDownload?VaultID=8872&ts=1709753150"},"commentMarkup":"
For PJ06, I'm most interested in extending the polar time lapse sequences further to the respective edge of the polar haze disks. By images from previous perijoves, I'm rather sure, that we can obtain information about the dynamics down to latitudes between 50 and 60 deg. PJ06 may be one of few opportunities to cover the dynamics of this large range of latitudes in a seamless way. The zones around edge of the haze disks are particularly turbulent. I'm expecting impressive image products. And a dense time-spacing, as dense as JunoCam allows, will show the edge of the haze from a number of viewing angles, offering the opportunity to obtain kind of a tomogram, which will tell more about the structure of the haze. I'm also hoping vor clues about the connection between FFRs, haze, the highly turbulent zone full of vortices around the haze disk, and Jupiter's differential rotation.<\/p><\/div>
Some suggestions for voting:<\/p>
For this perijove, I have not had time to prepare a predictive map, but Marco Vedovato\u2019s map of April 19-20 gives a good idea of what is in that sector. There are no special local features here, but the following latitude bands seem of the greatest interest.<\/p>
1. NEBs dark projection (\u2018hot spot\u2019). [POI 341: \u201cLittle greenish place\u201d, 6.8\u00baN; or, "Hot Spot"] There is a good chance that Juno will pass over one of these at PJ6 \u2013 although they are quite variable, and often disturbed by passing \u2018rifts\u2019. The Microwave Radiometer team are particularly hoping to catch one, and to get a JunoCam image of the same target, so it is very desirable to take this image; it would be the closest-ever image of a \u2018hot spot\u2019.<\/p>
2. NEB. [POI 839: \u201cGas irregularity\u201d, 17.7\u00baN; or, "Spot of Brahman" as Glenn suggests] This belt is still massively disturbed, and JunoCam can view an unusual pale sector. This seems to be an example of a general process, where large-scale disturbance has evolved to small-scale turbulence, so it would be a worthwhile target for JunoCam\u2019s high resolution. The image will also give a wider-field view of any NEBs \u2018hot spot\u2019.<\/p>
3. Dark vortices on the N2 jet (NNTB south edge). [POI 830: \u201cGreat polar spot\u201d, 36.4\u00baN] Many dark spots (presumably vortices) have arisen on this jet, which may be recovering from suppression during last year\u2019s great NTBs jet outbreak. There will be a good chance of catching one. The image would also cover the revived NTB as it continues to mature.<\/p>
4,5. North and south polar regions. [POI 166: \u201cScott polar cap\u201d, 64.8\u00baN; & POI 1131: \u201cThings seem quiet in the south\u201d, 63.5\u00baS].<\/p>
--John Rogers<\/p>","JunoMisc":"0","R_VaultID":null,"Likes":"0","Flags":"1","AdminApproved":"1","ApprovedBy":"23","AdminRemoved":"0","R_JunoUserID":"125","R_JunoPOIID":null,"R_JunoCampaignID":null,"R_JunoCommentID":null,"R_TopLevelCommentID":"0","hasReplies":"0","Advanced":"0","R_JunoVoteRound":"4","R_AnalysisID":"0","IsRemoved":"0","RemovedBy":"2","UpdatedTS":"2020-07-13 22:37:54","InsertedTS":"2017-05-04 00:26:55","Nickname":"Philosophia-47","specialist":"0","Media":[],"Replies":[],"nice_date":"2017-05-04 00:26 UT","commentMarkup":"
Some suggestions for voting:<\/p>
For this perijove, I have not had time to prepare a predictive map, but Marco Vedovato\u2019s map of April 19-20 gives a good idea of what is in that sector. There are no special local features here, but the following latitude bands seem of the greatest interest.<\/p>
1. NEBs dark projection (\u2018hot spot\u2019). [POI 341: \u201cLittle greenish place\u201d, 6.8\u00baN; or, \"Hot Spot\"] There is a good chance that Juno will pass over one of these at PJ6 \u2013 although they are quite variable, and often disturbed by passing \u2018rifts\u2019. The Microwave Radiometer team are particularly hoping to catch one, and to get a JunoCam image of the same target, so it is very desirable to take this image; it would be the closest-ever image of a \u2018hot spot\u2019.<\/p>
2. NEB. [POI 839: \u201cGas irregularity\u201d, 17.7\u00baN; or, \"Spot of Brahman\" as Glenn suggests] This belt is still massively disturbed, and JunoCam can view an unusual pale sector. This seems to be an example of a general process, where large-scale disturbance has evolved to small-scale turbulence, so it would be a worthwhile target for JunoCam\u2019s high resolution. The image will also give a wider-field view of any NEBs \u2018hot spot\u2019.<\/p>
3. Dark vortices on the N2 jet (NNTB south edge). [POI 830: \u201cGreat polar spot\u201d, 36.4\u00baN] Many dark spots (presumably vortices) have arisen on this jet, which may be recovering from suppression during last year\u2019s great NTBs jet outbreak. There will be a good chance of catching one. The image would also cover the revived NTB as it continues to mature.<\/p>
4,5. North and south polar regions. [POI 166: \u201cScott polar cap\u201d, 64.8\u00baN; & POI 1131: \u201cThings seem quiet in the south\u201d, 63.5\u00baS].<\/p>
--John Rogers<\/p><\/div>