Friday / 22 November 2019

LRO Surpasses 10 Years In Orbit With Images Of Longjiang-2 Site And Giordano Bruno Crater

NASA Lunar Reconnaissance Orbiter, Originally Designed For One Year Of Operations, Exceeds 10 Years Of Mission Returning 1.1 Petabytes Of Data; Orbiter Cameras Image Impact Site Of China Longjiang-2, Part Of Chang’e-4 Mission, But Are Unable To Locate India Chandrayaan-2; LRO Returns High-Resolution Photos Of Cliffs Within Giordano Bruno Crater; With An Estimated 7 Years Of Service Life Left, LRO Is Expected To Play Part In Reconnaissance For Artemis Human Lunar Landings

Credits: NASA

Weekend Edition
Fri-Mon / 13-16 Sep 2019

Chandrayaan-2 Orbiter And LRO Seeking Vikram Lander On Surface

India Chandrayaan-2 Orbiter On 8 September Has Located Vikram Lander On Surface; 1,470-kg Vikram Is Believed To Have Inverted 11 Minutes After Beginning Descent, Causing Loss Of Control 2.1 Km From Surface; NASA Lunar Reconnaissance Orbiter Scheduled To Overfly Landing Site 17 Sep; LRO Will Attempt To Image Vikram And Laser Retroreflector; Lunar Night Will Cover Landing Site Near Manzinus C Crater Around 21 Sep; India Prime Minister Modi Says “ISRO Spirit” Has United Country, Forecasts “New Dawn And Brighter Tomorrow”

Credits: NASA, ISRO

Tuesday / 6 Aug 2019

New Analysis Of Data Obtained From NASA Spacecraft Implies Presence Of Thick Ice On Mercury And Moon

Research Conducted At UCLA And Published In The Journal Nature Geoscience Compares Topographical Data Gathered By Lunar Reconnaissance Orbiter (LRO) And Mercury Surface, Space Environment, Geochemistry And Ranging (Messenger) Finds Simple Crater Depths Decrease By 10% Proximate To North And South Pole On Mercury / South Pole On Moon; Lead Study Author Lior Rubanenko (L) Says That Existence Of Thick, Buried Ice Deposits Can Be Inferred, LRO Scientist Noah Petro (R) Suggests “Potential Reservoir Of Frozen Water On The Moon May Be Sufficiently Massive To Sustain Long-Term Lunar Exploration”

Credits: NASA, UCLA, JHU APL

Friday / 14 June 2019

Moon Maps, Composition Analyses Advance With Future Artemis Payloads, Current LRO, Past Missions Data

In Support Of First Planned Human Moon Landings 2024 & Potential Lunar Base, Projected Late 2020 Uncrewed Artemis 1 First Flight Of SLS Will Carry 6 Secondary Payloads To Study Lunar Ice, Hydrogen, Radiation, Spectroscopy, Thermography, Test Cislunar Propulsion Methods; LRO Reaching 10 Full Years / Entering 11th Year At Moon Next Week, Remains In Polar Mapping Orbit Since 2015; LRO Combined Data With 2011-12 GRAIL Mission Shows Potential Metal Deposit 5x Size Of Hawai’i Island Beneath South Pole-Aitken Basin

Credits: NASA, LRO, GRAIL, JPL, SPC, ILOA

Tuesday / 12 Mar 2019

Lunar Reconnaissance Orbiter Finds Water Moving Across Lunar Surface, Cooperates With Chang’e-4 Mission 

 

NASA Lunar Reconnaissance Orbiter, In Orbit Since June 2009, Makes Data Release 37B; LRO Lyman Alpha Mapping Project Observes Water Molecules Moving Around Lunar Dayside; LAMP Uses Ultraviolet Light From Stars To Look Into Permanently Shadowed Craters Seeking Water Ice; LRO Is Positioned To Aid Future International Robotic And Crewed Missions; In Cooperation With CNSA Lunar Reconnaissance Orbiter Camera (LROC) Images Chang’e-4 Lander And Yutu-2 Rover On Surface

Credits: NASA

Weekend Edition
Fri-Mon / 15-18 Feb 2019

USA And Partners Hope For 2019 Lunar Landing, Will Announce New Payloads And Commercial Contracts

Next Week NASA Will Announce 12 Science Payloads, Already Developed, For Commercial Lunar Service Providers; Commercial Partners Have 25 Mar Due Date To Submit Proposals For Transfer, Descent, And Ascent Vehicles Of Human Lunar Landing System With Selection In May; Award Of Up To US $9M In Contracts Expected By July Observation Of Apollo 11; Thomas Zurbuchen Of Science Directorate Hopes For USA Lunar Landing In 2019, Potentially Joining China Spacecraft Active On Surface 

Credits: NASA

Friday / 8 Feb 2019

CNSA-NASA First Lunar Collaboration Could Initiate Future Breakthroughs

USA Lunar Reconnaissance Orbiter (LRO) In Eccentric Polar Mapping Orbit (20-km Altitude South Pole, 165-km North Pole) Since 2015, Captures Image Of China Chang’e-4 On Moon Far Side In Von Kármán Crater On 30 Jan 2019; Information Sharing Between The 2 Countries Amidst Restrictions Highlights Potential To Expand Upon Mutually Beneficial Cooperation, Combine 21st Century Technologies Of Leading Spacefaring Nations – Both Of Which Plan Human Moon Missions, Lunar Bases

Pictured: NASA Administrator Jim Bridenstine and CNSA Administrator Zhang Kejian 

Credits: NASA, GSFC, Arizona State University, CNSA, NAOC-CSA

Tuesday / 22 Jan 2019

USA / PRC Moon Collaboration To Be Discussed At UN Vienna Mid-Feb

NASA Headed By Jim Bridenstine (L), Will Work With China On Lunar Landing Research Following Discussions With CNSA, Headed By Zhang Kejian (R); NASA Scientists Are Exchanging Data With Chang’e-4 Science Team; Lunar Reconnaissance Orbiter Expected To Image Chang’e-4 Landing Site On 31 January; Lunar Data Will Be Shared With Global Research Community At Scientific And Technology Subcommittee Of UN Committee On Peaceful Uses Of Outer Space In Vienna 11-22 Feb; NASA Cooperation With CNSA To Be Transparent, Reciprocal And Mutually Beneficial

Credits: NASA, CNSA

Weekend Edition
Fri-Mon / 18-21 Jan 2019

SpaceIL Lander Arrives At Cape Canaveral On Way To Mare Serenitatis

Israel SpaceIL Beresheet Lander Now At Cape Canaveral; Scheduled To Fly From Launch Complex 40 On SpaceX Falcon 9 NET 18 February; Will Be Carried Along With India PSN-6 Communications Satellite And Classified US Co-Payload; 585-Kg Loaded Mass (200-Kg Dry) Lander Is First Of Former Google X-Prize Contestants To Launch; Will Take ~2 Months To Reach Landing Site In Mare Serenitatis At 28.0°N, 17.5°E; NASA Contributes Communications Support And Laser Retroreflector Array To Complement Lunar Ranging Experiments From Previous Missions; Lunar Reconnaissance Orbiter Will Make Observations To Support Beresheet Landing

Credits: SpaceIL, NASA

Tuesday / 8 Jan 2019

Space Cooperation Advocated For Benefit Of Mankind And Womankind

As Chang’e-4 And Yutu-2 Rover Explore Von Karman Crater On Far Side Of Moon, China Daily Editorial Describes “Exploring Outer Space For Benefit Of Mankind” And For Peaceful Purposes; Editor of NASA Watch Suggests Rules On Cooperation Can Be Softened; USA Offers To Aid China With Data From Lunar Reconnaissance Orbiter; NASA Lunar Scientists Have Independently Pinpointed Chang’e-4 At 45.47084° S By 177.60563° E; Russia Provides Radioisotopes For Chang’e-4 Power Source; Sweden, Germany And Netherlands Also Contribute To Mission; China Invites International Partners For Upcoming Space Station

Credits: CNSA,NASA, Arizona State University