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"results": [
{
"id": 35114,
"title": "Space Rider orbital ballet",
"authors": [
{
"name": "ESA",
"socials": null
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],
"url": "https://www.esa.int/ESA_Multimedia/Videos/2024/11/Space_Rider_orbital_ballet",
"image_url": "https://www.esa.int/var/esa/storage/images/esa_multimedia/videos/2024/11/space_rider_orbital_ballet/26466122-1-eng-GB/Space_Rider_orbital_ballet_card_full.png",
"news_site": "ESA",
"summary": "Animation showing a possible interoperability application in orbit of payload deployment and retrieval operations with ESA’s reusable Space Rider.",
"published_at": "2026-01-05T10:00:00Z",
"updated_at": "2026-01-05T10:31:21.109994Z",
"featured": false,
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{
"id": 35112,
"title": "Hunga eruption reshaped stratospheric water and ozone with limited climate cooling",
"authors": [
{
"name": "SpaceDaily",
"socials": null
}
],
"url": "https://www.terradaily.com/reports/Hunga_eruption_reshaped_stratospheric_water_and_ozone_with_limited_climate_cooling_999.html",
"image_url": "https://www.spxdaily.com/images-bg/tonga-volcano-from-space-bg.jpg",
"news_site": "SpaceDaily",
"summary": "Sydney, Australia (SPX) Jan 05, 2026\n\n\nA new international assessment details how the January 2022 eruption of the Hunga Tonga-Hunga Haapai volcano in the South Pacific altered the stratosphere, atmospheric chemistry, and radiation while having only a small impact on global surface climate and the Antarctic ozone hole. \n\nThe Hunga Volcanic Eruption Atmospheric Impacts Report, released under the Atmospheric Processes and their Rol",
"published_at": "2026-01-05T08:23:42Z",
"updated_at": "2026-01-05T08:02:05.960614Z",
"featured": false,
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{
"id": 35121,
"title": "From roots to rocket",
"authors": [
{
"name": "ESA",
"socials": null
}
],
"url": "https://www.esa.int/Science_Exploration/Human_and_Robotic_Exploration/From_roots_to_rocket",
"image_url": "https://www.esa.int/var/esa/storage/images/esa_multimedia/images/2026/01/tree_planting_for_epsilon/27055897-3-eng-GB/Tree_planting_for_epsilon_card_full.jpg",
"news_site": "ESA",
"summary": "On 5 January 2026, the European Astronaut Centre (EAC) in Cologne, Germany, hosted a special tradition: the planting of an astronaut tree by ESA astronaut Sophie Adenot in honour of her first mission to space, εpsilon. This symbolic gesture celebrates her achievements and future mission while reinforcing the deep connection between space explorers and the planet they call home. ",
"published_at": "2026-01-05T08:20:00Z",
"updated_at": "2026-01-05T14:10:16.195435Z",
"featured": false,
"launches": [],
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{
"id": 35105,
"title": "Deep Arctic gas hydrate mounds host ultra deep cold seep ecosystem",
"authors": [
{
"name": "SpaceDaily",
"socials": null
}
],
"url": "https://www.spacedaily.com/reports/Deep_Arctic_gas_hydrate_mounds_host_ultra_deep_cold_seep_ecosystem_999.html",
"image_url": "https://www.spxdaily.com/images-bg/greenland-sea-molloy-ridge-freya-gas-hydrate-mounds-fauna-bg.jpg",
"news_site": "SpaceDaily",
"summary": "Berlin, Germany (SPX) Jan 01, 2026\n\n\nA multinational research team led by UiT The Arctic University of Norway has identified the deepest known gas hydrate cold seep on Earth during the Ocean Census Arctic Deep - EXTREME24 expedition, documenting the Freya Hydrate Mounds at 3,640 meters depth on the Molloy Ridge in the Greenland Sea. The work reveals a previously unknown ecosystem on the Arctic seafloor where exposed gas hydrate, me",
"published_at": "2026-01-05T05:37:37Z",
"updated_at": "2026-01-05T04:30:20.702410Z",
"featured": false,
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{
"id": 35110,
"title": "OPERA satellite data sharpens US crop and water management",
"authors": [
{
"name": "SpaceDaily",
"socials": null
}
],
"url": "https://www.spacedaily.com/reports/OPERA_satellite_data_sharpens_US_crop_and_water_management_999.html",
"image_url": "https://www.spxdaily.com/images-bg/nasa-opera-land-use-eo-program-splash-bg.jpg",
"news_site": "SpaceDaily",
"summary": "Los Angeles CA (SPX) Jan 01, 2026\n\n\nOPERA the Observational Products for End-Users from Remote Sensing Analysis project was created in 2021 at NASAs Jet Propulsion Laboratory to supply federal agencies with satellite products that match their highest priority data needs as identified by the interagency Satellite Needs Working Group convened by the White House Office of Management and Budget and Office of Science and Technology Pol",
"published_at": "2026-01-05T05:37:37Z",
"updated_at": "2026-01-05T04:30:20.803857Z",
"featured": false,
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{
"id": 35111,
"title": "Neural network sharpens satellite ocean color in complex coastal waters",
"authors": [
{
"name": "SpaceDaily",
"socials": null
}
],
"url": "https://www.terradaily.com/reports/Neural_network_sharpens_satellite_ocean_color_in_complex_coastal_waters_999.html",
"image_url": "https://www.spxdaily.com/images-bg/decode-satellite-signals-over-complex-waters-bg.jpg",
"news_site": "SpaceDaily",
"summary": "Tokyo, Japan (SPX) Jan 01, 2026\n\n\nA recent study presents ACA-SIM, an atmospheric correction algorithm that uses satellite-in situ matchup data and neural networks to improve ocean color retrievals over coastal waters. The approach relies on real satellite radiance and in situ reflectance from Aerosol Robotic Network-Ocean Color (AERONET-OC) sites to reduce errors and striping artifacts in derived ocean color products, particula",
"published_at": "2026-01-05T05:37:37Z",
"updated_at": "2026-01-05T04:30:20.815310Z",
"featured": false,
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{
"id": 35109,
"title": "Alen Space begins SATMAR satellite validation over Bay of Algeciras",
"authors": [
{
"name": "SpaceDaily",
"socials": null
}
],
"url": "https://www.spacedaily.com/reports/Alen_Space_begins_SATMAR_satellite_validation_over_Bay_of_Algeciras_999.html",
"image_url": "https://www.spxdaily.com/images-bg/alen-space-satmar-control-room-western-europe-atlantic-shipping-bg.jpg",
"news_site": "SpaceDaily",
"summary": "Berlin, Germany (SPX) Jan 01, 2026\n\n\nAlen Space has completed the first demonstrator pilot campaign of VDES technology using its SATMAR satellite over the Bay of Algeciras in southern Spain. Over the past week, the company worked with Egatel and the Port Authority of the Bay of Algeciras to run several operational tests in a real maritime setting. \n\nIn the first pilot, SATMAR supported message exchanges between a vessel and the",
"published_at": "2026-01-05T05:37:37Z",
"updated_at": "2026-01-05T04:30:20.790840Z",
"featured": false,
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{
"id": 35108,
"title": "NASA and Boeing advance control strategies for flexible long span airliner wings",
"authors": [
{
"name": "SpaceDaily",
"socials": null
}
],
"url": "https://www.spacedaily.com/reports/NASA_and_Boeing_advance_control_strategies_for_flexible_long_span_airliner_wings_999.html",
"image_url": "https://www.spxdaily.com/images-bg/nasa-boeing-longer-narrower-wings-aircraft-bg.jpg",
"news_site": "SpaceDaily",
"summary": "Los Angeles CA (SPX) Jan 01, 2026\n\n\nThe airliners of coming decades may feature long, slender wings that change the look of commercial aircraft while improving ride quality and cutting fuel use. \n\nThose high aspect ratio wings promise lower drag and better efficiency, but their increased flexibility introduces structural and control challenges that engineers must address before airlines can adopt them. \n\nAs part of the Int",
"published_at": "2026-01-05T05:37:37Z",
"updated_at": "2026-01-05T04:30:20.774659Z",
"featured": false,
"launches": [],
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{
"id": 35106,
"title": "Terran Orbital to build satellite buses for SDA Tranche 3 Tracking Layer",
"authors": [
{
"name": "SpaceDaily",
"socials": null
}
],
"url": "https://www.spacewar.com/reports/Terran_Orbital_to_build_satellite_buses_for_SDA_Tranche_3_Tracking_Layer_999.html",
"image_url": "https://www.spxdaily.com/images-bg/terran-orbital-bus-sda-transport-layer-tranche-0-bg.jpg",
"news_site": "SpaceDaily",
"summary": "Los Angeles CA (SPX) Jan 01, 2026\n\n\nTerran Orbital has been selected by Lockheed Martin to supply satellite bus platforms for the Space Development Agency's Tranche 3 Tracking Layer within the Proliferated Warfighter Space Architecture. \n\nUnder this program, Lockheed Martin will deliver 18 space vehicles that provide missile warning, tracking, and defense functions for SDA's Tranche 3 Tracking Layer. Terran Orbital will supply",
"published_at": "2026-01-05T05:37:37Z",
"updated_at": "2026-01-05T04:30:20.749971Z",
"featured": false,
"launches": [],
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{
"id": 35107,
"title": "Spatiotemporal resilience model targets IoT unmanned fleets",
"authors": [
{
"name": "SpaceDaily",
"socials": null
}
],
"url": "https://www.spacewar.com/reports/Spatiotemporal_resilience_model_targets_IoT_unmanned_fleets_999.html",
"image_url": "https://www.spxdaily.com/images-bg/drone-spatiotemporal-resilience-iot-enabled-unmanned-systems-uav-bg.jpg",
"news_site": "SpaceDaily",
"summary": "Tokyo, Japan (SPX) Dec 31, 2025\n\n\nResearchers from Zhengzhou University, the University of Kent, and City University of Hong Kong have developed a framework to evaluate and optimize the spatiotemporal resilience of Internet of Things (IoT)-enabled unmanned system of systems operating in complex missions. The work responds to the growing use of unmanned aerial vehicles and unmanned vehicles in hazardous environments where maintai",
"published_at": "2026-01-05T05:37:37Z",
"updated_at": "2026-01-05T04:30:20.762685Z",
"featured": false,
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