NASA Exoplanets Transcript Correction v1.0

Hello to NASA and my #ScienceMarch friends on Twitter,

I did my best to correct the subtitles of NASA’s Official Press Conference Video about the exoplanets in the TRAPPIST-1 system.

I use two notations to indicate the uncertainties in my perception:

  1. ‘..?..’ indicates that I detected a Type II Error in my perception, i.e. I was able to detect the presence of a phrase, but I couldn’t determine its spelling.
  2. ‘(?)’ indicates that I detected a Type I Error in my perception, i.e. I detected and spelled a phrase, but I’m not confident because I have suspicions that I might have misspelled the phrase.

The corrected subtitles are below. I had to do this because I want to translate the transcript into Turkish and publish it on the Yersiz Şeyler [Placeless Things] website along with my many other translated texts and compiled e-books, Yersiz Kitaplar [Placeless Books].

codtree_12Let me use this opportunity to advertise the Entropy Agglomeration (EA) dendrogram that I created yesterday to enable the chemical exploration of exoplanets.

EA is a greedy algorithm based on an information measure that I had defined in my PhD thesis and then implemented to analyze the paragraphs of James Joyce’s Ulysses.

The algorithm simply tries to keep the entropies low by choosing particular combinations of elements (central wavelength values) over the 46 exoplanets whose emission spectroscopy data was available on NASA Exoplanets Archive website.

So here is the dendrogram with a link to its own page:

emission_spectroscopy_dendrogram_of_exoplanets

UPDATE: The full text of the transcript is available in readable format!

Greetings,

Dr. Işık Barış Fidaner

fidaner.wordpress.com/science

Ideas don’t have deadlines

00:00:06 – >> GOOD AFTERNOON. I’M FELICIA CHOU FROM THE OFFICE OF COMMUNICATIONS
00:00:10 – AND WE’RE LIVE HERE IN NASA HEADQUARTERS. WE’VE GOT SOME EXCITING NEWS ON WORLDS OUTSIDE OF
00:00:14 – OUR SOLAR SYSTEM TODAY. FIRST WE’LL HAVE BRIEF PRESENTATIONS FROM
00:00:17 – ALL OF OUR PANELISTS AND THEN WE’RE GONNA ANSWER QUESTIONS FROM THOSE IN THE STUDIO, ON THE PHONE AND
00:00:22 – ON SOCIAL MEDIA. TO ASK A QUESTION VIA SOCIAL MEDIA, PLEASE
00:00:26 – USE THE HASHTAG #ASKNASA. TODAY’S PARTICIPANTS ARE THOMAS ZURBUCHEN.
00:00:34 – ASSOCIATE ADMINISTRATOR OF THE SCIENCE MISSION DIRECTORATE AT NASA HEADQUARTERS IN WASHINGTON.
00:00:39 – MICHAEL GILLON, ASTRONOMER AT THE UNIVERSITY OF LIEGH IN BELGIUM.
00:00:45 – SEAN CAREY, MANAGER OF NASA’S SPITZER SCIENCE CENTER AT CALTECH IPAC IN PASADENA, CALIFORNIA.
00:00:54 – SARA SEAGAR, PROFESSOR OF PLANETARY SCIENCE AND PHYSICS AT MASSACHUSETTS INSTITUTE OF
00:00:59 – TECHNOLOGY IN CAMBRIDGE. AND, NIKOLE LEWIS, ASTRONOMER AT THE SPACE
00:01:06 – SCIENCE INSTITUTE IN BALTIMORE. AND WITH THAT, THOMAS, CAN YOU START US OFF
00:01:11 – WITH WHAT THE BIG NEWS OF THE DAY IS? >> HEY, THANKS SO MUCH, FELICIA.
00:01:15 – LOOK, I’VE BEEN ASSOCIATE ADMINISTRATOR FOR THE SCIENCE MISSION DIRECTORATE FOR CLOSE TO FIVE MONTHS AND
00:01:24 – I’VE JUST BEEN IN AWE AND I’M IN AWE TODAY ABOUT BOTH THE DEPTH AND THE BREADTH OF THE SCIENCE THAT WE DO HERE.
00:01:28 – WE ARE CHANGING PEOPLE’S LIVES EVERY DAY AND WE ENLARGEN THE SPACE WE KNOW.
00:01:32 – WE STRETCH OUR IMAGINATION. WE INSPIRE EVERY DAY.
00:01:35 – AND TODAY’S STORY IS JUST THAT. I’M EXCITED TO ANNOUNCE TODAY THAT DR. MICHAEL
00:01:40 – GILLON AND HIS TEAM HAVE USED OUR SPITZER SPACE TELESCOPE TO DETERMINE THAT THERE ARE
00:01:46 – ACTUALLY SEVEN EARTH-SIZE PLANETS ORBITING THE NEARBY TRAPPIST-1 STAR ABOUT 40
00:01:52 – LIGHT-YEARS AWAY. WHAT’S MORE, AS YOU CAN SEE IN THIS ILLUSTRATION
00:01:57 – IS THAT THREE OF THESE PLANETS MARKED IN GREEN ARE IN THE HABITABLE ZONE WHERE LIQUID WATER
00:02:04 – CAN POOL ON THE SURFACE. IN FACT WITH THE RIGHT ATMOSPHERIC CONDITIONS
00:02:08 – THERE COULD BE WATER ON ANY OF THESE PLANETS. SO FOR THE FIRST TIME, WE FOUND AS MANY TERRESTRIAL
00:02:14 – PLANETS AROUND A SINGLE STAR AND THAT’S THE FIRST TIME WE HAVE BEEN ABLE TO MEASURE,
00:02:19 – IN ADDITION TO THAT, BOTH THE MASSES AND THE RADII OF THESE HABITABLE-ZONE-TYPE EARTH-SIZE PLANETS.
00:02:27 – THESE PLANETS ARE AMONG THE BEST, IN… OF ALL THE PLANETS WE KNOW, TO FOLLOW UP.
00:02:33 – TO SEE FOR EXAMPLE WITH THE JAMES WEBB SPACE TELESCOPE THAT WE’RE GONNA LAUNCH [NEXT] YEAR THE ATMOSPHERES
00:02:39 – AND ALSO TO LOOK AT BIOSIGNATURES IF THERE ARE ANY.
00:02:43 – THE DISCOVERY GIVES US A HINT THAT FINDING A SECOND EARTH IS NOT JUST A MATTER OF “IF,”
00:02:50 – BUT “WHEN.” SCIENTISTS BELIEVE ACTUALLY THAT AROUND EVERY
00:02:55 – STAR THERE COULD BE ONE PLANET, TAKE THREE, TAKE FIVE, TAKE SEVEN.
00:02:59 – AND YOU CAN JUST IMAGINE HOW MANY WORLDS ARE OUT THERE THAT HAVE A SHOT TO BECOMING A HABITABLE
00:03:05 – ECOSYSTEM THAT WE COULD EXPLORE. AND WHAT WE REALLY HAVE IN THIS STORY IS
00:03:12 – A MAJOR STEP FORWARD TOWARDS ANSWERING ONE OF THESE VERY QUESTIONS THAT ARE AT THE HEART
00:03:17 – OF SO MANY OF OUR PHILOSOPHERS OF WHAT WE ARE THINKING ABOUT WHEN WE ARE BY OUR SELF
00:03:22 – AND THAT BASICALLY IS — ARE WE ALONE OUT THERE?
00:03:26 – WE ARE MAKING A STEP FORWARD WITH THIS, A LEAP FORWARD, IN FACT, TOWARDS ANSWERING
00:03:30 – THAT QUESTION. AND I’M REALLY EXCITED FOR YOU TO HEAR ABOUT
00:03:34 – IT NOW. >> THANKS, THOMAS.
00:03:36 – SO, MICHAEL, CAN YOU TELL US MORE ABOUT THIS FINDING?
00:03:40 – >> SURE. AS THOMAS MENTION, WE USED A SPITZER SPACE
00:03:44 – TELESCOPE WITH A .. OVER .. GROUND BASED TELESCOPE TO DISCOVER AROUND THE SAME STAR, NOT ONE, NOT
00:03:52 – TWO BUT SEVEN EARTH SIZED PLANETS. AND THIS IS THE FIRST TIME THAT SO MANY EARTH
00:03:58 – SIZED PLANET ARE FOUND AROUND THE SAME STAR, FURTHERMORE THE THREE OF THEM IN THE HABITABLE ZONE.
00:04:03 – AND THE STAR ITSELF IS WHAT IS CALLED AN ULTRA-COOL DWARF, WHICH IS THE LEAST MASSIVE KIND OF STAR THAT EXIST.
00:04:11 – AND THESE STAR ARE MUCH SMALLER, MUCH COOLER THAN OUR SUN AND STILL THEY ARE VERY FREQUENT
00:04:17 – IN.. AT THE SCALE OF OUR GALAXY, MORE FREQUENT THAN SOLAR TYPE STARS.
00:04:19 – AND IF YOU LOOK AT THIS ILLUSTRATION, YOU SEE THE COMPARISON BETWEEN THE BASKETBALL
00:04:27 – AND THE GOLF BALL. WELL, IN OUR CASE, THE BASKETBALL WOULD BE
00:04:30 – THE SUN. AND THE GOLF BALL, IT WOULD BE TRAPPIST-1.
00:04:33 – SO, TRAPPIST-1 IS MUCH COOLER, MUCH SMALLER THAN OUR SUN. AND SO THE PLANETS ITS…
00:04:38 – IN ITS HABITABLE ZONE ARE MUCH CLOSER TO IT, VERY CLOSE TO IT WITH VERY SHORT ORBITAL PERIODS.
00:04:46 – AND IN THE.. THIS GRAPHICS, WHAT YOU CAN SEE ARE THE PLANETS WHICH ARE AROUND.. WHICH WE HAVE FOUND AROUND TRAPPIST-1.
00:04:53 – WITH THE THREE OF THEM WHICH ARE IN THE HABITABLE ZONE. ALSO CALLED GOLDILOCKS ZONES WHERE
00:04:59 – LIQUID WATER COULD EXIST, THE MOST LIKELY TO EXIST ON THE SURFACE OF A ROCKY PLANET.
00:05:04 – AND THE THREE OF THESE EARTH SIZED PLANET IN THIS HABITABLE ZONE IS VERY PROMISING FOR THE
00:05:09 – SEARCH FOR LIFE BEYOND OUR SOLAR SYSTEM. >> SO WHAT CAN YOU TELL US ABOUT THESE DISTANT
00:05:15 – PLANETS? >> WELL, WE HAVE MEASURED WITH SPITZER VERY, VERY PRECISELY THE
00:05:21 – SIZES, AND FURTHERMORE, WE HAVE, THANKS TO SPITZER-2, A PRELIMINARY MEASUREMENTS
00:05:26 – OF THE MASSES FOR SIX OF THEM. AND FOR ONE OF THEM, OUR MEASUREMENT IS PRECISE
00:05:31 – ENOUGH TO STRONGLY SUGGEST A WATER-RICH COMPOSITION WHICH IS VERY EXCITING BECAUSE THIS IS ONE OF THE PLANETS
00:05:40 – IN THE HABITABLE ZONE. FURTHERMORE THESE PLANETS ARE ORBITING SO CLOSE TO THE STAR THAT THEY MUST BE, OR
00:05:48 – THEY ARE PROBABLY, TIDALLY LOCKED, WHICH MEAN THEY ALWAYS FACE THE STAR WITH THE SAME SIDE. LIKE THE MOON TO THE EARTH.
00:05:52 – AND SO, IF YOU LOOK AT THIS ANIMATION, YOU CAN SEE A VIEW OF TIDALLY LOCKED PLANET WITH A PERMANENT DAY SIDE
00:06:01 – AND A PERMANENT NIGHT SIDE. THE TRAPPIST-1 PLANET COULD BE JUST LIKE THIS.
00:06:04 – NOW WHAT IS ALSO EXCITING HERE ABOUT THIS SYSTEM IS THAT THE PLANETS ARE SO CLOSE TO EACH OTHER.
00:06:10 – IF YOU WERE ON THE SURFACE OF ONE OF THESE PLANETS, YOU WOULD HAVE A WONDERFUL VIEW ON
00:06:15 – THE OTHER PLANETS. YOU WOULDN’T SEE THEM LIKE WE SEE THE VENUS OR
00:06:19 – MARS LIKE DOTS OF LIGHT. BUT AS YOU CAN SEE IN THE NEXT ILLUSTRATION,
00:06:24 – YOU WOULD SEE THEM REALLY AS WE SEE THE MOON. YOU WOULD SEE WALLS (?) WHICH ARE VERY BIG.
00:06:30 – YOU COULD SEE THE STRUCTURES ON THESE WALLS (?). THEY WOULD BE AS LARGE AS A MOON AND EVEN
00:06:34 – LARGER FOR SOME OF THEM. SO IT WOULD BE A WONDERFUL VIEW ON THESE PLANETS.
00:06:39 – >> THANKS, MICHAEL. SO, SEAN, CAN YOU GIVE US AN IDEA OR MORE
00:06:44 – CONTEXT TO DISCOVERY AND WHY SPITZER PLAYED SUCH A VITAL ROLE?
00:06:49 – >> ABSOLUTELY, FELICIA. I FIRST WOULD LIKE TO SAY THAT I, MY OPINION,
00:06:52 – THIS IS THE MOST EXCITING DISCOVERY WE’VE HAD YET WITH SPITZER IN ITS 14 YEAR.. ALMOST 14 YEARS
00:06:57 – OF OPERATION. AS YOU CAN SEE IN THE GRAPHIC, THE INITIAL
00:07:00 – DISCOVERY OF THE TRAPPIST-1 SYSTEM WAS BY THE TRAPPIST TELESCOPE IN CHILE IN 2016. AND IT…
00:07:05 – IMMEDIATELY AFTER THAT, WE STARTED DOING INTENSIVE FOLLOW UP WITH A LOT OF GROUND-BASED TELESCOPES AND MORE THAN 20 DAYS OF
00:07:10 – CONTINUOUS OBSERVATIONS WITH SPITZER. AND (WHAT) WE WERE ABLE TO FIND IS THAT WE CONFIRMED TWO OF THE PLANETS THAT WERE
00:07:16 – FOUND IN THE INITIAL DISCOVERY AND THEN FOUND FIVE MORE PLANETS FOR A TOTAL OF SEVEN PLANETS IN THE
00:07:22 – SYSTEM, WHICH IS PRETTY EXCITING. NOW, TRAPPIST-1 IS AN ULTRA-COOL DWARF AND THAT MEANS THAT
00:07:28 – IT’S MUCH BRIGHTER IN THE INFRA-RED, THOUSANDS OF TIMES BRIGHTER IN THE INFRA-RED THAN IN THE VISIBLE.
00:07:32 – SO IT MAKES IT IDEAL TO USE SPITZER, WHICH IS AN INFRA-RED TELESCOPE, TO DO THE FOLLOW-UP ON THIS
00:07:38 – SYSTEM. AND THEN AS YOU CAN SEE IN THIS ANIMATION OF SPITZER… SO SPITZER WAS
00:07:42 – LAUNCHED IN 2003 AND IT WAS NEVER INTENDED TO STUDY EXOPLANETS.
00:07:46 – SO WE HAD TO DO SOME CLEVER RE-ENGINEERING, WHILE IT’S IN SPACE STILL AND MORE THAN AN ASTRONOMICAL UNIT AWAY FROM THE EARTH.
00:07:53 – SO YOU CAN’T FLY OUT AND DO ANYTHING ABOUT, BUT WE DID CLEVER ENGINEERING ON THE GROUND TO COME UP, ALLOW SPITZER
00:07:59 – TO MEASURE STAR BRIGHTNESSES VERY PRECISELY, a THOUSAND TIMES MORE PRECISELY THAN WE HAD IMAGINED SPITZER WOULD BE ABLE TO DO.
00:08:06 – AND THEN WHAT WE’RE GONNA SHOW IN THE NEXT ANIMATION IS HOW WHEN SPITZER SEES THE PLANETS VERY SIMILAR TO THE WAY
00:08:12 – THE KEPLER SPACE TELESCOPE DOES, WE DON’T IMAGE THE INDIVIDUAL PLANETS, WHAT WE DO IS THE PLANETS PASS IN FRONT OF THE STAR.
00:08:18 – WE SEE THE AMOUNT OF LIGHT THAT THE STAR IS DIMMED BY WHEN THAT PLANET IS BLOCKING IT.
00:08:23 – SO, THE DIPS YOU SEE IN THIS ANIMATION ARE THE PLANETS GOING IN FRONT OF THE STAR, BLOCKING
00:08:27 – A LITTLE BIT OF THE LIGHT. THE SIZE OF THE DIP TELLS YOU THE SIZE OF
00:08:30 – THE PLANET. SO WE CAN GET THE SIZE OF THE PLANET DIRECTLY
00:08:33 – FROM MEASURING THE DIP. NOW, WHEN YOU SEE THE DIFFERENT PLANETS THEY
00:08:36 – KEEP ORBITING AROUND AND AROUND AND EVERY TIME THEY TRANSIT, YOU CAN MEASURE THE SPACING
00:08:40 – BETWEEN THE TRANSITS AND THAT TELLS YOU ABOUT THE ORBIT, THE PERIOD OF THE ORBIT.
00:08:44 – HOW LONG THAT YEAR IS. AND ONE SWEEP FOR THAT PLANET. AND THEN, WHEN WE KNOW
00:08:48 – HOW LONG IT TAKES FOR THE PLANET TO GO AROUND THE STAR, WE ALSO KNOW DISTANCE IT HAS FROM THE STAR,
00:08:54 – AND IT ALSO TELLS US WHETHER OR NOT IT’S IN THE HABITABLE ZONE.
00:08:57 – NOW THE TRAPPIST-1 SYSTEM AND ITS PLANETS ARE IN AN INTERESTING CONFIGURATION. THE PLANETS ARE ALL VERY CLOSE TOGETHER
00:09:01 – AND THEIR ORBITS ARE SPACED SUCH THAT THEY GRAVITATIONALLY INTERACT WITH EACH OTHER. THEY TUG AND PULL EACH OTHER
00:09:06 – AS THEY GO FLYING AROUND THEIR… ORBITING AROUND THEIR STAR, AND WHAT THAT DOES IS THAT CHANGES
00:09:14 – THE TIMING OF THE TRANSITS A LITTLE BIT AS THE PLANETS ARE TUGGING EACH OTHER SO THEY DON’T HAPPEN
00:09:18 – AS REGULARLY ASYOU WOULD EXPECT WITHOUT THE TUG. AND WITH THAT, THE, MEASURING THOSE DIFFERENCES,
00:09:22 – WHAT WE’RE ABLE TO DO IS MEASURE THE MASSES OF THE PLANETS.
00:09:25 – SO NOW WE HAVE THE MASS OF THE PLANET, THE SIZE OF THE PLANET, SO WE CAN MAKE AN ESTIMATE
00:09:29 – OF WHAT THE DENSITY OF THE PLANET IS. AND THAT’S IMPORTANT IS THAT GIVES US SOME UNDERSTANDING ABOUT WHAT THE
00:09:32 – COMPOSITION OF THE PLANET’S. FROM THAT, WE CAN TELL WHERE THE PLANETS ARE,
00:09:35 – WHETHER THEY ARE ROCKY, GASEOUS OR EVEN WATERY. >> THANKS, SEAN.
00:09:40 – SO, NIKOLE, WHAT CAN YOU TELL US ABOUT STUDYING THE ATMOSPHERES OF THESE PLANETS?
00:09:46 – >> YEAH, SO THE ATMOSPHERES OF PLANETS TELL US A GREAT DEAL ABOUT THE FORMATION EVOLUTION OF PLANETS AND
00:09:52 – ALSO ABOUT ALL THE PHYSICAL PROCESSES THAT ARE OCCURRING ON THE PLANET’S SURFACE AND IN THE AIR.
00:09:55 – ESPECIALLY THOSE THAT MIGHT MAKE THE PLANET HABITABLE OR ACTUALLY INDICATIVE OF HOSTING LIFE.
00:10:00 – WE CAN USE SPACE-BASED TELESCOPES TODAY TO… TO STUDY THE ATMOSPHERES OF THE PLANETS USING
00:10:06 – A TECHNIQUE CALLED TRANSMISSION SPECTROSCOPY WHICH DETECTS THIS FINGERPRINTS OF DIFFERENT CHEMICAL SPECIES
00:10:13 – IN THE PLANET’S AIR SUCH AS WATER OR METHANE, OZONE OR OXYGEN. WE ARE CURRENTLY USING THE HUBBLE SPACE TELESCOPE
00:10:17 – TO STUDY THE PLANETS IN THE TRAPPIST-1 SYSTEM TO DETERMINE IF THEY HAVE HYDROGEN-HELIUM DOMINATED
00:10:22 – ATMOSPHERES. IT’S ACTUALLY GREAT TO FIND OUT IF THEY DON’T, THAT GIVES US ANOTHER PUSH FORWARD
00:10:28 – IN HAVING THESE PLANETS BE IN FACT ROCKY AND ALSO THE POTENTIAL OF THOSE PLANETS TO SUPPORT WATER ON THEIR SURFACES.
00:10:34 – JUST LAST YEAR, HUBBLE ACTUALLY PROBED THE INNER MOST PLANETS OF THE TRAPPIST-1 SYSTEM, TRAPPIST B AND C AND FOUND THAT
00:10:39 – THEY DIDN’T HAVE– HYDROGEN-HELIUM DOMINATED ATMOSPHERES. SO THAT’S JUST ONE MORE STEP ALONG THE PATH TO HAVING
00:10:48 – THESE POTENTIALLY HABITABLE WORLDS >> WHAT DO WE KNOW ABOUT THE THREE WORLDS IN THE HABITABLE ZONE? >> SURE, SO I’LL USE EYES
00:10:54 – ON EXOPLANETS HERE, TO GIVE A BRIEF TOUR OF THE HABITABLE ZONE OF THE TRAPPIST-1 SYSTEM. SO IF WE ZOOM OUT TO THE SYSTEM AWAY
00:11:02 – FROM THE HOST STAR, YOU’LL SEE ALL SEVEN PLANETS. THE HABITABLE ZONE INDICATED HERE IN THIS BLUE REGION.
00:11:07 – THE INNERMOST PLANET IN THE HABITABLE ZONE IS TRAPPIST-1E. SO IN THIS ILLUSTRATION, YOU’LL S… YOU’LL SEE AN ARTIST’S
00:11:14 – RENDITION OF TRAPPIST-1E. IT’S A REALLY INTERESTING PLANET FOR A NUMBER
00:11:17 – OF REASONS. IT’S VERY CLOSE IN SIZE TO EARTH AS YOU CAN
00:11:20 – SEE HERE. IT ALSO RECEIVES ABOUT THE SAME AMOUNT OF
00:11:26 – LIGHT AS EARTH DOES IN OUR OWN SOLAR SYSTEM.
00:11:30 – THIS MEANS THAT IN TRAPPIST-1E, YOU COULD HAVE TEMPERATURES THAT ARE VERY, VERY SIMILAR
00:11:34 – TO THE ONES THAT WE HAVE HERE ON EARTH. THE NEXT PLANET OUT IS TRAPPIST-1F.
00:11:41 – NOW THIS IS A POTENTIALLY WATER-RICH WORLD THAT IS, AGAIN, ABOUT THE SAME SIZE AS EARTH.
00:11:47 – SEE HERE, COMPARISON. NOW, TRAPPIST-1F HAS ABOUT A NINE-DAY
00:11:54 – ORBIT. AND DURING THAT TIME, IT RECEIVES ABOUT THE
00:11:56 – SAME AMOUNT OF SUNLIGHT AS MARS DOES IN OUR OWN SOLAR SYSTEM.
00:11:59 – AND THE FINAL PLANET IN THE HABITABLE ZONE OF THE TRAPPIST-1 SYSTEM IS TRAPPIST-1G.
00:12:03 – NOW TRAPPIST-1G IS THE LARGEST PLANET IN THE TRAPPIST-1 SYSTEM.
00:12:11 – IT HAS ABOUT 13% LARGER RADIUS THAN THAT OF EARTH, AS YOU CAN SEE IN THIS COMPARISON HERE.
00:12:21 – AND IT RECEIVES ABOUT THE SAME AMOUNT OF STARLIGHT AS SOMEWHERE IN BETWEEN MARS AND THE
00:12:26 – ASTEROID BELT IN OUR OWN SOLAR SYSTEM. >> SO WHILE WE DON’T HAVE THE TECHNOLOGY YET
00:12:30 – TO REALLY TRAVEL TO ANY OF THESE PLANETS, HOW LONG WOULD IT TAKE TO TRAVEL HERE?
00:12:36 – >> WELL, THANKFULLY WE CAN ASK EYES ON EXOPLANETS. IF WE WERE ABLE TO TRAVEL AT LIGHT SPEED WE
00:12:41 – OF COURSE COULD ARRIVE IN 39 YEARS. SOMETHING MORE LIKE A JET PLANE WOULD
00:12:46 – TAKE FAR LONGER OF COURSE. SOMETHING MORE IN LINE OF 44 MILLION YEARS.
00:12:51 – >> WOW… WELL THEN, THANK YOU SO MUCH, NIKOLE.
00:12:54 – NOW SARA, WHY… WHY ARE THESE DISCOVERIES SO EXCITING FOR THE SCIENTIFIC COMMUNITY?
00:13:00 – >> WELL WITH THIS DISCOVERY, WE’VE MADE A GIANT ACCELERATED LEAP FORWARD IN THE SEARCH
00:13:04 – FOR HABITABLE WORLDS AND LIFE ON OTHER WORLDS, POTENTIALLY SPEAKING.
00:13:08 – BECAUSE WITH NOT JUST ONE PLANET BUT SEVERAL, WE HAVE ROOM THAT IF WE DIDN’T HAVE THE HABITABLE
00:13:14 – ZONE QUITE RIGHT OR WEREN’T SURE QUITE WHAT WE’RE LOOKING FOR, WE HAVE MANY CHANCES OVER.
00:13:19 – YOU COULD SAY COLLOQUIALLY, IT’S LIKE IN THIS PLANETARY SYSTEM, GOLDILOCKS HAS MANY SISTERS.
00:13:26 – NOW WE DON’T KNOW MUCH ABOUT THE PLANETS. WE KNOW, AS WE HEARD EARLIER, THE MASSES AND SIZES AND HOW MUCH RADIATION
00:13:31 – IS FALLING ON THEM AND THEIR ORBITS. SO FOR NOW WE JUST SPECULATE.
00:13:35 – AND FOR THAT, THE TRAPPIST-1 SYSTEM HAS REALLY CAPTURED OUR IMAGINATION. AND WE HAVE A NEW TRAVEL POSTER FOR YOU
00:13:39 – THAT YOU CAN DOWNLOAD FROM THE NASA WEBSITE AND IF YOU SEE HERE IT’S CAPTURED SCIENTIFICALLY ACCURATELY THE…
00:13:50 – YOU KNOW, HOW ON ONE OF THE PLANETS YOU COULD SEE ALL THE OTHER PLANETS IN THE SKY. NOW, HISTORICALLY IN EXOPLANETS
00:13:56 – IN THE KIND OF BRIEF HISTORY OF THE LAST 20 YEARS, WHEN THERE’S ONE, THERE’S MORE.
00:14:00 – AND SO THAT’S WHY I’M SO EXCITED TO BE HERE TODAY TO SHARE IT WITH YOU.
00:14:04 – BECAUSE, WITH THIS AMAZING SYSTEM, WE KNOW THAT THERE MUST BE MANY MORE POTENTIALLY LIFE BEARING
00:14:10 – WORLDS OUT THERE, JUST WAITING TO BE FOUND. >> THANKS.
00:14:14 – SO, WHAT ARE ASTRONOMERS DOING TO LEARN MORE ABOUT THE SYSTEM AND OTHERS LIKE IT?
00:14:20 – >> WELL FIRST OF ALL, MICHAEL AND HIS TEAM HAVE STARTED TO PUT UP MORE TELESCOPES.
00:14:26 – THEY CALL IT SPECULUS. AND THEY’RE GOING TO FROM THE GROUND USE TELESCOPES
00:14:30 – TO SEARCH 1,000 OF THE NEAREST ULTRA-COOL DWARF STARS. AND ACTUALLY I JUST HAVE TO BACK UP A SECOND ABOUT THIS TRAPPIST
00:14:39 – SYSTEM BECAUSE I FORGOT TO MENTION THAT ONE OF THE REASONS ASTRONOMERS ARE SO EXCITED
00:14:43 – ABOUT IT IS IT’S A VERITABLE LABORATORY FOR STUDYING PLANETS ORBITING VERY COOL VERY SMALL VERY DIM RED STARS
00:14:52 – THAT ARE SO INCREDIBLY DIFFERENT FROM OUR SUN.
00:14:55 – IN FACT, ASTRONOMERS CONSTANTLY GO BACK AND FORTH ABOUT ALL THE EXCITEMENT ABOUT THESE WORLDS, ‘CAUSE
00:15:01 – THEY ARE VERY EASY TO STUDY. OTHER PEOPLE HAVE FEARS AND CONCERNS.
00:15:05 – AND SO WE ACTUALLY GET TO TEST MANY PEOPLE’S THEORIES ABOUT THESE WORLDS.
00:15:11 – BEING TIDALLY LOCKED, AND RADIATION FROM THE HOST STAR AND THINGS LIKE THAT.
00:15:13 – SO, HOPEFULLY, WE ARE COUNTING ON SPECULUS TO FIND MORE SYSTEMS AND PLANETS AROUND THESE
00:15:19 – ULTRA-COOL DWARFS, THESE VERY COMING STARS THAT WE CAN STUDY.
00:15:23 – SO IN ADDITION TO SPECULUS, IN ASTRONOMY WHEN SOMEONE MAKES A DISCOVERY LIKE THIS, WE PUT
00:15:29 – ALMOST ANY TELESCOPE THAT CAN SIT..?..UP TO FOLLOW UP.
00:15:33 – AND SO IN THAT WAY, WE HAVE, WE HEARD ABOUT HUBBLE ALREADY FROM NIKOLE, BUT THE HUBBLE, AND KEPLER
00:15:38 – K2, SPITZER AND OTHER TELESCOPES ARE EXPLORING THE TRAPPIST SYSTEM FURTHER.
00:15:44 – I’D SAY THAT WHAT THE TEAM IS MOST EXCITED ABOUT, ALTHOUGH THIS IS STILL A BIT IN THE FUTURE, IS THE JAMES
00:15:48 – WEBB SPACE TELESCOPE WHICH WILL LAUNCH LATER IN 2018. BECAUSE WITH THIS TELESCOPE AND THE REASON THE TRAPPIST PLANETS
00:15:55 – ARE SO SIGNIFICANT IS THAT THEY ARE ACCESSIBLE TO OBSERVATIONS WITH THE JAMES WEBB SPACE TELESCOPE. YOU CAN SEE
00:16:03 – IN ANIMATION OF IT HERE. SO WITH THE JAMES WEBB WE’LL BE ABLE TO STUDY THE ATMOSPHERES AND WE WILL TRY TO ASSESS
00:16:08 – THE GREENHOUSE GAS CONTENT WHICH WILL HELP US UNDERSTAND THE SURFACE TEMPERATURE OF THE PLANETS.
00:16:12 – ARE THEY INDEED THE RIGHT TEMPERATURE TO SUPPORT LIQUID WATER AND LIFE AS WE KNOW IT.
00:16:17 – IN FACT WE ARE EVEN GONNA USE THE JAMES WEBB TO SEARCH FOR GASES. GASES THAT DON’T BELONG THAT MIGHT BE
00:16:22 – PRODUCED BY LIFE SUCH AS OXYGEN, OZONE, METHANE AND A WHOLE HOST OF OTHER GASES.
00:16:27 – >> THANKS, SARA. SO, BEFORE WE GO INTO Q & A., THOMAS, DO
00:16:31 – YOU HAVE ANY CLOSING THOUGHTS FOR US? >> YOU KNOW, FOR ME, THIS RESEARCH AND EXOPLANETS
00:16:36 – IS REALLY IN ITS GOLD RUSH PHASE. YOU KNOW I… IT STARTED SOMETHING LIKE 20 YEARS AGO AND
00:16:43 – I JUST COULDN’T HELP BUT NOTICE THAT THE LAST CO-AUTHOR ON YOUR PAPER IS THE SAME CO-AUTHOR WHO WAS THERE AT THE ANNOUNCEMENT
00:16:48 – OF THE FIRST EXOPLANET EVER DISCOVERED AND ANNOUNCED IN 1995. AND SINCE THEN WE’VE FOUND THOUSANDS OF THOSE
00:16:57 – A LITTLE BIT UNDER 5,000 THE LAST TIME I CHECKED. THOUSANDS OF THEM ARE IN THE HABITABLE ZONE.
00:17:02 – NONE UNTIL NOW HAVE HAD THAT MANY PLANETS IN THE HABITABLE ZONE AND IT’S ONLY EXPANDING.
00:17:09 – THIS IS GOING FORWARD AT A RAPID PACE NOT JUST BECAUSE OF THE TELESCOPES THAT ARE THERE
00:17:13 – NOW, BUT THE TELESCOPES WE’RE LAUNCHING SOON AND YOU TALKED ABOUT THE JAMES WEBB TELESCOPE,
00:17:20 – BUT ALSO TESTS OF COURSE THAT’S GONNA BE THERE AND DOUBLE YOU..??.. THAT’S BEING PLANNED RIGHT NOW, AGAIN, REALLY OPENING OUR
00:17:27 – LENS. OPENING OUR VIEWPOINTS ON TO TO THE UNIVERSE
00:17:30 – AND ESPECIALLY IN MANY CASES THESE EXOPLANETS. I DO BELIEVE THAT MANY OF THE BEST TELESCOPES
00:17:37 – THAT WILL GIVE US THE MOST INFORMATION ARE YET TO BE INVENTED.
00:17:41 – THERE’S MANY THINGS WE DON’T KNOW. MANY QUESTIONS WE HAVE THAT WE A.. WHAT… THAT COME UP WHEN WE
00:17:46 – SEE THESE OBSERVATIONS. WE LOOK AT ALL THESE ANIMATIONS.
00:17:50 – VERY LIKELY NATURE IS WAY MORE BEAUTIFUL, WAY MORE AMAZING, THAN WHAT WE’VE ANIMATED
00:17:55 – HERE. IT’S ALWAYS THAT WAY.
00:17:57 – AND SO, FOR US, THE QUESTION IS — HOW DO WE ACTUALLY OPEN UP OUR LENS AND SEE THESE
00:18:02 – THINGS? HOW DO WE GET SO MUCH DATA FROM THAT THAT
00:18:05 – THE KIND OF QUESTIONS THAT SARA ASKED ARE ACTUALLY ABLE TO BE ANSWERED?
00:18:10 – AND FOR ME, AT THE END, IT’S ALL ABOUT THAT THOUGHT THAT I HAVE SO OFTEN —
00:18:15 – WHEN I GO TO BED AT NIGHT AND REALLY IMAGINE HOW THESE OTHER WORLDS REALLY LOOK LIKE.
00:18:21 – THE FACT THAT THERE ARE WORLDS OUT THERE JUST LIKE THE EARTH THAT HAVE SOME COMMONALITIES
00:18:28 – WITH THE EARTH AND YOU COULD IMAGINE THESE WORLDS.
00:18:32 – IT’S JUST — ONLY HAPPENING RIGHT NOW. THESE QUESTIONS ABOUT “ARE WE ALONE?”
00:18:37 – ARE BEING ANSWERED AS WE SPEAK IN THIS DECADE AND NEXT DECADE.
00:18:42 – I’M REALLY EXCITED ABOUT THIS. >> THANKS, THOMAS.
00:18:45 – WITH THAT, LET’S TRANSITION TO Q & A. WE’VE GOT A TON OF QUESTIONS ON SOCIAL MEDIA
00:18:50 – SO WE’LL GO THERE FIRST. IF YOU’D LIKE TO ASK A QUESTION USING
00:18:53 – SOCIAL MEDIA, PLEASE USE THE HASHTAG #ASKNASA. >> ALL RIGHT.
00:18:58 – WONDERFUL. WE’VE GOT LOTS OF QUESTIONS COMING IN.
00:19:01 – THIS FIRST ONE COMES FROM TWITTER USER JAY JAMS WHO ASKS — WHAT IS THE TOTAL AMOUNT OF
00:19:06 – POSSIBLY HABITABLE PLANETS WE HAVE FOUND INCLUDING THESE TRAPPIST DISCOVERIES?
00:19:13 – >> OKAY, THE TOTAL NUMBER OF HABITABLE PLANETS, BELIEVE IT OR NOT, IS UNKNOWN.
00:19:18 – AND IT DEPENDS ON WHO YOU ASK AND HOW YOU COUNT THEM. WE WOULD SAY THAT THERE ARE, LET’S SAY, A
00:19:21 – FEW DOZEN EXOPLANETS THAT YOU MIGHT CONSIDER HABITABLE, BUT THE BOTTOM LINE IS THAT MANY
00:19:26 – OF THEM MAY BE A BIT TOO HOT OR A BIT TOO BIG.
00:19:29 – WE REALLY HAVE TO WAIT UNTIL WE CAN SEE THE ATMOSPHERES TO KNOW HOW HOT OR COLD THE PLANETS
00:19:32 – REALLY ARE. AND THAT’S WHY THE TRAPPIST PLANETS ARE SO RELEVANT BECAUSE THEY ACTUALLY,
00:19:37 – UNLIKE A LOT OF THE OTHER HABITABLE ZONE PLANETS, WE CAN ACTUALLY ASSESS THEM IN THE NEAR FUTURE.
00:19:43 – >> WONDERFUL. ALL RIGHT.
00:19:46 – THE NEXT QUESTION HERE COMES FROM SCOTT WHO ASKS — ANY CONFIRMATION OF WATER ON THE PLANETARY
00:19:52 – BODIES? >> I CAN HANDLE THAT ONE.
00:19:55 – THERE’S… HAS NOT BEEN ANY CONFIRMATION OF WATER ON THESE PLANETARY BODIES.
00:19:59 – AND IT WILL TAKE A LOT OF, A LOT OF OBSERVATIONS WITH HUBBLE OR IN THE FUTURE WITH WEBB TO
00:20:06 – PROBE THE ATMOSPHERE TO SEE IF WE CAN DETECT WATER ON THESE PLANETS.
00:20:09 – >> BUT I THINK IT’S FAIR TO ADD THAT PEOPLE ARE LOOKING.
00:20:11 – >> YES. THEY ARE CERTAINLY LOOKING.
00:20:14 – >> GREAT. THIS QUESTION COMES FROM TWITTER USER MATTHEW
00:20:17 – WHO ASKS — WILL THIS BE ONE OF THE FIRST OBSERVATIONS FOR J. W. S. T. AND HOW MUCH CAN WE
00:20:21 – LEARN ABOUT TRAPPIST E, F AND G UNTIL THAT MISSION LAUNCHES?
00:20:27 – >> I CAN TAKE THAT ONE, TOO. YOU KNOW, A LOT OF FOLKS, SINCE LEARNING ABOUT
00:20:33 – THE SYSTEM, HAVE THOUGHT ABOUT OBSERVING IT WITH J. W. S. T. AND I AM FAIRLY CERTAIN THAT CYCLE
00:20:38 – ONE WILL SEE SOME OBSERVATIONS ON ALMOST ALL OF THE PLANETS IN THE SYSTEM.
00:20:43 – >> AND THEN I GUESS TO ADD FURTHER EVEN NOW WE CONTINUALLY TAKE OBSERVATIONS FROM THE GROUND AND SPITZER TO
00:20:48 – LOOK AT THE TRANSIT TIMING VARIATIONS. WE’RE GONNA GET BETTER MEASUREMENTS OF THE MASSES OF THESE PLANETS
00:20:54 – AS TIME GOES BY AND NEXT YEAR WILL HAVE MUCH BETTER MEASUREMENTS THAN WE HAVE CURRENTLY.
00:20:56 – >> OKAY, WE ARE GOING TO TAKE ONE QUESTION ON THE PHONE LINE FROM JAY BENNETT FROM POPULAR MECHANICS
00:21:02 – AND THEN WE’RE GONNA GO BACK TO SOCIAL MEDIA. SO, JAY?
00:21:05 – >> HELLO, EVERYONE. I WAS WONDERING IF THE FACT THAT TRAPPIST-1
00:21:09 – IS A PARTICULARLY COOL RED DWARF MEANS THAT IT’S MORE LIKELY TO SUPPORT PLANETS THAT ARE
00:21:16 – POTENTIALLY HABITABLE BECAUSE IT DOESN’T HAVE AS MUCH STELLAR ACTIVITY, SOLAR FLARES, ERUPTIONS,
00:21:20 – THESE TYPES OF THINGS? >> I CAN TAKE THIS ONE.
00:21:24 – SO ULTRA-COOL DWARVES ARE KNOWN TO BE VERY ACTIVE WHEN THEY ARE YOUNG
00:21:29 – AND THIS IS THE MAIN CONCERN ABOUT THESE POTENTIALLY HABITABLE PLANETS.
00:21:34 – THAT THEY THEY COULD HAVE BEEN THE ATMOSPHERE BEEN ERODED STRONGLY BY THE STAR WHEN IT WAS YOUNG.
00:21:41 – NOW IT’S QUIET. IT’S A QUIET, ULTRA-COOL DWARF, SO IT’S NOT VERY ACTIVE.
00:21:46 – BUT, MAYBE WHEN IT WAS YOUNG, THE CONDITIONS WERE QUITE DIFFERENT.
00:21:50 – SO IT WILL BE BY OBSERVATION THAT WE WILL REALLY FIGURE OUT THE PAST OF THESE PLANETS AND WHAT
00:21:56 – HAPPENED DURING THIS VERY ACTIVE AND YOUNG PHASE. >> I’LL JUST ADD TO THAT AND REPHRASE WHAT
00:22:03 – MICHAEL SAID TO JUST SAY, THE GREAT NEWS IS WE CAN OBSERVE IN THE NEAR FUTURE.
00:22:07 – WE NO LONGER HAVE TO RELY ON WHAT WE THINK AND SPECULATION, BECAUSE NATURE USUALLY IS SMARTER
00:22:11 – THAN BE WE ARE, AND IF THERE’S ANY WAY FOR A LIFE TO GET A FOOTHOLD, WE’D LIKE TO BELIEVE
00:22:16 – IT WILL. >> THANK YOU.
00:22:18 – WE’RE GONNA GO BACK TO SOCIAL MEDIA. SO, JASON?
00:22:22 – >> ALL RIGHT. THIS QUESTION COMES FROM TWITTER USER AMARA
00:22:24 – WHO ASKS — HAVE YOU DECIDED ANY NAMES FOR THESE PLANETS YET?
00:22:30 – >> A NAME? TO GIVE THEM A NAME? >> PROBABLY THEY MEAN LIKE A POPULAR NAME? LIKE…
00:22:37 – >> OH… WELL, WE HAVE PLENTY OF POSSIBILITIES WHICH ARE ALL RELATED TO BELGIAN BEERS.
00:22:41 – BUT WE DON’T THINK THEY WILL BECOME OFFICIAL. SO — [LAUGHTER] — FOR NOW LET’S
00:22:46 – CALL THEM B, C, D AND, AND SO ON. >> ADMITTEDLY WE HAVE NO WAY TO EASILY GIVE
00:22:50 – OFFICIAL NAMES TO EXOPLANETS IN THE SAME WAY THAT WE DO FOR ASTEROIDS BUT PERHAPS IT’S SOMETHING
00:22:55 – WE SHOULD TRY TO CHANGE. >> GREAT.
00:22:58 – THIS NEXT QUESTION COMES FROM TWITTER USER JOE PHENE WHO ASKS DOES THE EARTH SIZE PLANETS HAVE ANY MOONS
00:23:04 – REVOLVING AROUND THEM AND IF NO, HOW CAN THERE BE POSSIBLE WAVES ON WATER?
00:23:10 – >> WELL, IN OUR DATA WE HAVE NO INDICATION OF A MOON.
00:23:15 – AND, SO FURTHERMORE, IF WE LOOK AT OUR THEORY AS.. IT WOULD BE QUITE UNLIKELY TO HAVE A MOON AROUND THE PLANET SO CLOSE TO ITS STAR.
00:23:24 – SO MAYBE IF THERE ARE OUTER PLANETS STILL TO FOUND MAYBE THEY WILL, THEY COULD HAVE A MOON, WE’LL SEE IN THE FUTURE.
00:23:31 – THERE ARE STILL MANY NEWS TO COME ABOUT THE SYSTEM. >> BUT I’LL ADD FURTHER THE TIDAL FORCES BETWEEN THE PLANETS ARE NOT
00:23:37 – NEGLIGIBLE. SO THERE.. IF THERE WAS WATER ON THESE PLANETS THERE WOULD BE TIDES AS WELL, BECAUSE THE TIDAL FORCES
00:23:43 – BETWEEN THE PLANETS INSTEAD OF PLANET-MOON. >> YES, INDEED. >> NEXT WE’RE GONNA GO TO THE PHONE LINES.
00:23:52 – WE HAVE KEITH KALLEN FROM NASA WATCH. KEITH? >> I HAVE A QUESTION, PROBABLY BEST FOR SARA
00:23:55 – SEAGAR. UM. I AM LOOKING AT THESE PLANETS.
00:23:57 – I ASSUME THEY ARE REALLY CLOSE TOGETHER. REMINDS ME OF THE JOVIAN SATURNIAN SYSTEMS
00:24:03 – WHERE STUFF IS THROWN FROM ONE WORLD ONTO ANOTHER. AND THERE’S QUESTIONS ABOUT WHY, YOU KNOW, IS, SHOULD YOU CONSIDER
00:24:11 – THESE AS AN ECOSYSTEM. I AM A BIOLOGIST LOOKING AT THREE POTENTIALLY HABITABLE WORLDS REAL CLOSE TO EACH OTHER.
00:24:17 – SHOULD WE BE THINKING THAT CONCEIVABLY THE BIOSPHERE AROUND THIS VERY TIGHT-KNIT GROUP OF PLANETS
00:24:25 – MIGHT EXTEND BEYOND JUST ONE PLANET IF THEY ARE THIS CLOSE TO EACH OTHER? >> THAT’S A WONDERFUL QUESTION.
00:24:29 – AND WE HAVEN’T THOUGHT THAT FAR YET. BUT I’M SURE THERE’S A STUDENT OUT THERE, YOU KNOW, LISTENING IN,
00:24:32 – WHO SHOULD TAKE THIS PROBLEM ON. UM. I’LL JUST BACK UP ONE STEP THOUGH AND ANSWER A SLIGHTLY DIFFERENT
00:24:39 – QUESTION. BECAUSE, IF WE WANNA THINK ABOUT INTELLIGENT CIVILIZATION ELSEWHERE LOOKING BACK AT US,
00:24:42 – THEY MAY BE HAVING A PRESS CONFERENCE SAYING HEY THERE’S THREE HABITABLE PLANETS THERE, VENUS,
00:24:49 – EARTH AND MARS MAY APPEAR TO BE IN THE HABITABLE ZONE NO MATTER HOW WE DESCRIBE IT.
00:24:54 – SO LET’S WAIT AND SEE WHAT’S OUT THERE. BUT GREAT QUESTION AND HOPEFULLY SOMEBODY WILL WORK ON THIS.
00:24:58 – >> NEXT ON PHONE LINES WE HAVE MARSHA DUNN FROM ASSOCIATED PRESS.
00:25:02 – >> YES, YES, HELLO. UM, I WAS WONDERING UM, HOW MANY YEARS DO YOU THINK
00:25:06 – IT MIGHT TAKE UM, TO HAVE A REAL GOOD HANDLE ON THE ATMOSPHERES OF THESE EXOPLANETS?
00:25:14 – AND, I HAVE A FOLLOW-UP QUESTION. >> YEAH.
00:25:17 – UM, SO WE COULD ACTUALLY MAKE A SUBSTANTIAL AMOUNT OF PROGRESS IN THE NEXT, AFTER THE LAUNCH OF J. W. S. T.,
00:25:22 – THE NEXT, SORT OF, FIVE YEARS’ RANGE. SO STARTING WITH HUBBLE AND MOVING TO J. W. S. T.
00:25:28 – TO CONTINUE THE EXPLORATION OF THESE ATMOSPHERES, WE COULD SEE RESULTS, YOU KNOW, IN THE EARLY
00:25:32 – 2020s. >> THANK YOU.
00:25:34 – AND I KNOW THERE ARE.. THIS IS THE FIRST TIME SEVEN EARTH-SIZED PLANETS HAVE APPEARED AROUND A STAR LIKE THIS.
00:25:42 – WHAT, WHAT IS THE — WHAT IS THE CLOSEST RUNNER-UP TO THAT?
00:25:46 – HOW MANY EARTH-SIZE PLANETS AROUND A STAR THAT YOU HAVE SEEN PRIOR?
00:25:53 – >> I THINK IT’S TWO OR THREE. >> YEAH.
00:25:55 – >> NO MORE. FOUND BY KEPLER.
00:25:57 – >> AND WHICH STAR IS THAT? >> OH, I DON’T REMEMBER.
00:26:01 – THERE ARE SO MANY KEPLER PLANETS. >> IT’S OK, THANK YOU
00:26:05 – >> SO, LET’S GO BACK TO SOCIAL MEDIA. JASON?
00:26:11 – >> ALL RIGHT.
00:26:13 – THIS QUESTION COMES FROM MILES O’BRIEN HERE ON TWITTER WHO ASKS — WHAT SORT OF INSTRUMENT
00:26:17 – COULD BE USED TO ANSWER THE QUESTION WHETHER THESE PLANETS HARBOR LIFE?
00:26:21 – COULD WEBB DO IT? >> SURE! SO, WEBB HAS A S..?.. OF INSTRUMENTS THAT COVER WAVELENGTHS
00:26:31 – FROM, SORT OF, THE NEAR INFRARED ALL THE WAY THROUGH FARTHER INTO THE INFRA-RED SPECTRUM. UM BUT IN PARTICULAR, IT HAS A LOT OF
00:26:35 – VERY POWERFUL SPECTROGRAPHS ABOARD, SO THIS IS GONNA ALLOW US TO DO THIS TRANSMISSION SPECTROSCOPY TECHNIQUE
00:26:41 – THAT I TALKED ABOUT EARLIER, AND IT COVERS THE RIGHT WAVELENGTH RANGE WHERE WE CAN START TO DETECT
00:26:51 – MOLECULES LIKE WATER, METHANE, OZONE AND OXYGEN SO WE CAN START TO DO A LOT OF WHAT SARA HAS SUGGESTED
00:26:56 – IN TRYING TO DETERMINE HABITABILITY AND ALSO THE POTENTIAL OF IT HARBORING LIFE.
00:26:59 – >> AND I JUST WANT TO ADD ONE THING AND TO MILES AND EVERYONE OUT THERE IS WE REALLY TRY TO EMPHASIZE
00:27:04 – WE HAVE THE CAPABILITY TO FIND SIGNS IS OF LIFE ELSEWHERE.
00:27:07 – BUT NATURE HAS TO DELIVER. AND, BECAUSE IT’S ALL SO NEW TO US THESE RED
00:27:11 – DWARF STARS WE DON’T TOTALLY KNOW WHAT’S OUT THERE.
00:27:13 – SO IF NATURE HAS MADE LIFE UBIQUITOUS AND THERE ARE LOTS OF ATMOSPHERES WITHOUT CLOUDS, SUBSTANTIAL ENOUGH
00:27:21 – ACCUMULATION OF GASES, WE’LL HAVE NO TROUBLE FINDING IT AT ALL.
00:27:24 – BUT IF IT’S THE OPPOSITE, THEN IT MAY BE A WHILE. BUT I DID WANNA ADD ONE MORE POINT THAT WE HADN’T COVERED YET.
00:27:28 – THAT UM, WE HAVE THE TEST MISSION UPCOMING, WE HAVE OTHER GROUND-BASED SEARCHES.
00:27:34 – SO TRAPPIST-1 WERE JUST HERE, IS THE FIRST, IT’S THE MOST EXCITING ONE SO FAR BUT
00:27:40 – WE HOPE TO HAVE MANY MORE OF THESE AND LOTS OF CHANCES TO FIND SIGNS OF LIFE IN THE FUTURE.
00:27:44 – >> WONDERFUL. NEXT QUESTION HERE COMES FROM TWITTER USER
00:27:48 – CHRIS SIMMS WHO ASKS — IS IT POSSIBLE TO LISTEN TO THIS PLANET SYSTEM USING OUR STEADY
00:27:53 – STYLE TELESCOPES? HOW DO WE LEARN AS MUCH AS POSSIBLE?
00:27:59 – >> TO MY KNOWLEDGE, IT WAS ALREADY LISTENED TO BY SETI AND THEY HAD NO SIGNAL FROM, ARTIFICIAL SIGNAL
00:28:05 – DETECTED. SO IT’S DOABLE, BUT THERE’S NO SIGNAL DETECTED.
00:28:14 – >> GREAT, NEXT QUESTION COMES FROM TWITTER USER SAWYER WHO ASKS — HOW FAR INTO THE FORESEEABLE
00:28:18 – FUTURE UNTIL WE MIGHT BE ABLE TO SEE A CRAFT THAT CAN MAKE THE JOURNEY TO TRAPPIST-1?
00:28:23 – >> THAT’S A REALLY HARD QUESTION JUST BECAUSE IT REQUIRES SO MANY MIRACLES ON THE WAY.
00:28:28 – SEE? WHEN JAMES WEBB WAS DEVELOPED, THE WAY I THINK ABOUT JAMES WEBB, IT REQUIRED SOMETHING
00:28:34 – LIKE 10 MIRACLES. KIND OF, THINGS WE HAD NEVER DONE.
00:28:37 – AND KIND OF PUT IT TOGETHER INTO A TELESCOPE, YOU KNOW, WITH A SIX AND A HALF METER, KIND OF,
00:28:42 – FOLDABLE MIRROR AND A THERMAL SYSTEM THAT’S A TENNIS COURT IN SIZE. YOU KNOW, KIND OF,
00:28:47 – HOW DO YOU DO THAT? THE ANSWER IS, YOU START INVENTING YOUR WAY
00:28:50 – FORWARD. THIS QUESTION THAT’S BEING ASKED, MAYBE A 100
00:28:56 – MIRACLE TYPE OF QUESTION AND SOME OF THEM PROBABLY RELATE TO NUCLEAR PROPULSION.
00:29:00 – SOME OF THEM, SOME OF THESE MIRACLES RELATE TO RADIATION PROTECTION, THEY RELATE TO THINGS THAT WE ARE JUST STARTING TO PUSH AT.
00:29:07 – NOW THE GOOD NEWS IS, THERE’S A LOT OF WORK THAT’S BEING DONE, ON KIND OF THE FIRST FIVE
00:29:11 – TO 10 OF THOSE MIRACLES THAT ARE BEING LOOKED AT. NOT NECESSARILY BECAUSE WE HAVE OUR EYES SET
00:29:17 – RIGHT NOW ON GOING TO STAR, IT’S A BIG LEAP, BUT BECAUSE WE ARE LOOKING FOR EXAMPLE AT THE OUTER SOLAR
00:29:24 – SYSTEM. WE WANNA GET THERE A LOT FASTER.
00:29:26 – WE WANNA GET THERE WITH MORE PAYLOAD. WE WANNA GET THERE WERE MORE ENERGY.
00:29:31 – AND SO THE WAY THIS GAME WORKS, IT’S REALLY, THE, IT’S, IT’S LEANING FORWARD.
00:29:36 – IT’S REALLY JUST BECAUSE IT TAKES A 100 MIRACLES NOT BACKING UP, THAT’S REALLY WHAT I WOULD
00:29:42 – BELIEVE IS WHAT NASA IS ALL ABOUT. THEN THAT’S ALSO WHAT LED TO THIS KIND OF DISCOVERY
00:29:47 – IN MANY WAYS, YOU KNOW. SPITZER ITSELF HAD A WHOLE BUNCH OF MIRACLES
00:29:51 – ON DETECTORS AND AND SYSTEMS. AND THE SAME IS TRUE FOR THE OTHER QUESTION.
00:29:55 – >> I’D LIKE TO JUST VERY BRIEFLY MENTION OUR COLLEAGUES AT THE BREAKTHROUGH FOUNDATION AND THE PROJECT
00:30:01 – CALLED STAR SHOT. AND YOU CAN GO LOOK THAT UP AND SEE THAT THEY’RE
00:30:04 – PLANNING 19 MIRACLES TO FIGURE OUT A WAY TO SEND VERY TINY, AND THOUSANDS OF LITTLE TINY
00:30:10 – SPACE CRAFT FLYING BY THE VERY NEAREST STARS. THAT WOULD BE PROXIMA CENTAURI, NOT QUITE LIKE TRAPPIST.
00:30:16 – BUT I JUST WANNA REMIND ALL OF YOU ALTHOUGH IT MAY SOUND DISCOURAGING PERHAPS THAT IN OUR LIFETIME WE WON’T HAVE A WAY TO SEE HOW
00:30:22 – TO GET TO TRAPPIST-1, THAT WE ARE HERE BECAUSE WE HAVE BIG SOPHISTICATED SPACE TELESCOPES. HUBBLE, SPITZER, JAMES WEBB
00:30:28 – AND FUTURE ONES, AND WHERE BIG AND REMOTE SENSING. SO EVEN THOUGH WE HAVE THAT’S WHAT WE HAVE TO LIVE FOR,
00:30:35 – WE ARE STILL VERY EXCITED ABOUT THE POSSIBILITY OF USING OUR TELESCOPES TO SEE WHAT’S THERE.
00:30:40 – RATHER THAN, WE HAVE TO LEAVE THE TRIP THERE TO FUTURE GENERATIONS.
00:30:45 – >> WE’VE GOT A LOT OF QUESTIONS ON SOCIAL MEDIA SO WE’RE JUST GONNA JUST KEEP THEM COMING.
00:30:49 – JASON. WHAT OTHER QUESTIONS DO, ARE WE GETTING?
00:30:52 – >> SURE. THIS NEXT QUESTION COMES FROM TWITTER USER AKU WHO ASKS
00:30:54 – — ANY ESTIMATIONS ON HOW OLD THESE DISCOVERED EXOPLANETS ARE?
00:31:00 – >> YEAH, THE AGE OF THE STAR AND SYSTEM ITSELF IS POORLY CONSTRAINED.
00:31:04 – WE KNOW IT’S NOT VERY YOUNG. IT DOES NOT SHOW SIGNS OF YOUNGNESS SO IT’S AT LEAST HALF A BILLION YEARS OLD.
00:31:12 – BUT WE CAN’T SAY MORE BECAUSE THESE ULTRA-COOL DWARF STARS, THEY EVOLVE SUPER SLOWLY.
00:31:17 – THE LIFETIME IS 1,000 TIMES LARGER THAN FOR A SUN-LIKE STAR.
00:31:22 – SO WE DON’T SEE THEM EVOLVING. SO WE CAN’T CONSTRAIN THE AGES.
00:31:27 – >> ALRIGHT THIS NEXT QUESTION COMES FROM FACEBOOK LIVE HERE.
00:31:30 – WHAT IS THE DISTANCE BETWEEN THESE THREE PLANETS? IS IT SOMETHING LIKE 500,000 KILOMETERS?
00:31:35 – AND WHAT IS THE DISTANCE BETWEEN E AND THE STAR?
00:31:38 – >> OH, THE DISTANCE BETWEEN THE PLANETS ARE A FEW TIMES THE DISTANCE BETWEEN THE EARTH
00:31:45 – AND THE MOON. SO, WE ARE TALKING ABOUT SOMETHING LIKE A
00:31:49 – THOUSAND — WELL, MILLIONS OF KILOMETERS, AND NOT HUNDREDS OF MILLIONS OF KILOMETERS FOR AN EARTH AROUND
00:31:54 – AROUND A SUN LIKE STAR. AND FOR THE PLANET F THE.. OR E, THE DISTANCE
00:32:02 – IS SOMETHING LIKE 5% BETWEEN THE EARTH AND THE, AND THE SUN.
00:32:07 – SO, IT’S MUCH, MUCH CLOSER TO ITS STAR. >> GREAT.
00:32:13 – THIS NEXT QUESTION COMES FROM TWITTER USER ROSS BUTLER WHO ASKS — IS THE TRAPPIST-1 SYSTEM THE CLOSEST TO
00:32:18 – US WITH PLANETS IN THE HABITABLE ZONE? >> NO.
00:32:24 – IN FACT THE CLOSEST IS PROXIMA CENTAURI WHICH HAS A PLANET WHICH WAS DETECTED BY RADIAL VELOCITY, SO BY ANOTHER METHOD WHICH DOESN’T
00:32:32 – TELL US THE SIZE NOR THE MASS. WE DON’T KNOW IF IT’S A ROCKY PLANET — BUT IT IS
00:32:36 – IN THE HABITABLE ZONE, CLEARLY. IT’S ONLY AT FOUR LIGHT YEARS AWAY.
00:32:42 – IT’S THE CLOSEST STAR, IN FACT. >> ALRIGHT, WONDERFUL.
00:32:46 – THIS NEXT QUESTION COMES FROM TWITTER USER UNCONVENTIONAL TIGER WHO ASKS — I WOULD LIKE TO KNOW THE RANGE OF ORBITAL PERIODS
00:32:50 – FOR THE SEVEN ROCKY PLANETS IN THE TRAPPIST SYSTEM? >> SO THE RANGE GOES FROM 1.5 DAYS FOR THE INNERMOST
00:32:58 – PLANET TO… WE DON’T KNOW THE PERIOD OF THE OUTER PLANET
00:33:02 – BUT IT MUST BE SOMETHING LIKE 20 DAYS. SO SUPER SHORT PERIOD COMPARED TO THE EARTH. >> I THINK, OH, DO YOU WANNA ADD THE RATIOS?
00:33:10 – >> OH YOU CAN ADD THE RATIOS >> I THINK MICHAEL GILLON HAD THE RESONANCE AND THE INTEGER RATIOS. >> AH OKAY, SO THE..
00:33:16 – INDEED ALSO THE PERIODS THEMSELVES ARE RELATED BY A COMMON SH..?..BO SO THEY ARE RELATED BY RATIOS OF INTEGER NUMBERS
00:33:27 – WHICH IS VERY PECULIAR THAN A MI..?..EL CONFIGURATION THAT WE CAN FIND IN OUR SOLAR SYSTEM FOR THE GALION MOON AROUND JUPITER.
00:33:33 – AND IT SHOWS THAT, IT INDICATES AT LEAST THAT THESE PLANETS SHOULD HAVE FORMED FURTHER ..?.. AND MIGRATED AND BEEN TRAPPED
00:33:40 – IN THIS MIGRATION INWARDS IN THIS VERY PECULIAR CONFIGURATION. IF IT IS THE CASE, THEY ARE SUPER WATER RICH BECAUSE
00:33:48 – THEY MUST HAVE FORMED IN AN ENVIRONMENT WHICH IS VERY RICH IN ICE OR IN WATER ICE AND THE, IT SHOULD BE REFLECTED
00:33:56 – IN THE COMPOSITION, AND WE WILL KNOW SOON THANKS TO, NOTABLY TO MANY NEW SPITZER OBSERVATIONS THAT ARE COMING.
00:34:01 – >> OKAY BEFORE WE TAKE MORE QUESTIONS FROM SOCIAL MEDIA, I’D LIKE TO ASK EACH OF YOU TO
00:34:05 – KIND OF GIVE US SOME THOUGHTS ABOUT WHY THIS FINDING IS SO EXCITING FOR YOU PERSONALLY
00:34:09 – AND WE’RE GONNA START WITH NIKOLE AND WORK OUR WAY TO THOMAS.
00:34:13 – >> YEAH, SO, THIS FINDING, THIS FINDING IS REALLY EXCITING FOR ME BECAUSE THIS IS A GREAT OPPORTUNITY
00:34:18 – TO STUDY EARTH-SIZE PLANETS’ ATMOSPHERES IN GREAT DETAIL.
00:34:23 – WE KNOW THAT WE HAVE GOOD, WE CAN GET GOOD SIGNAL-TO-NOISE RATIOS AND WE CAN START TO BEGIN THIS
00:34:28 – JOURNEY IN TRYING TO UNDERSTAND WHAT THE AIR IS LIKE AROUND ROCKY PLANETS OUTSIDE OF OUR
00:34:33 – SOLAR SYSTEM. >> WELL I’LL GIVE TWO FAVORITE REASONS.
00:34:37 – ONE IS WHEN I AND OTHERS STARTED IN EXOPLANETS 20 YEARS AGO, OUR PEEL… PEERS ALL DISMISSED THE WORK AS JUST
00:34:43 – STAMP COLLECTING. WE’D NEVER LOOK AT THEIR ATMOSPHERES, WE’D NEVER BE ABLE TO DO THIS, WE’D NEVER BE ABLE TO DO THAT,
00:34:48 – SO THE FACT THAT WE ARE HERE TODAY WITH SEVEN PLANETS, AND WE KNOW WE CAN STUDY THEIR ATMOSPHERES IN THE FUTURE IS TRULY TREMENDOUS.
00:34:53 – THE OTHER POINT I WANNA MAKE IS THAT WE ARE REALLY EXCITED BECAUSE WE ALL SEE OURSELVES HERE AS JUST,
00:34:59 – WE ARE THE GROUP OF PEOPLE, WE, MEANING US AND ALL OF OUR COLLEAGUES, AS THE PIONEERS. THIS
00:35:03 – IS A SEARCH THAT WILL GO ON FOR MANY GENERATIONS. AND JUST THE FACT THAT WE ARE THIS CLOSE NOW TO FINDING
00:35:08 – SO MANY HABITABLE WORLDS IS REALLY EXCITING. >> YEAH, SO SO FOR ME IT’S MORE OF A VERY KIND
00:35:14 – OF A PERSONAL EXPERIENCE BECAUSE I’VE WORKED ON SPITZER SINCE 2002.
00:35:17 – AND THE ABILITY TO BE ABLE TO DO THESE OBSERVATIONS WE HAD TO DO A FAIR AMOUNT OF ENGINEERING WORK AND AT THE BEGINNING IT
00:35:23 – WASN’T CLEAR NECESSARILY THAT WE WOULD BE ABLE TO ACHIEVE THE PRECISIONS WE NEED TO
00:35:28 – DO UP SCIENCE LIKE THIS. SO IT’S VERY GRATIFYING THAT ALL OF OUR HARD
00:35:32 – WORK, MYSELF, MY COLLEAGUES AT THE SPITZER SCIENCE CENTER, J.P.L. AND LOCKHEED MARTIN,
00:35:36 – THE ENGINEERS THERE, YOU KNOW WE WERE ABLE TO PULL IT OFF AND WE WERE ABLE TO GIVE GREAT DATA TO SCIENTISTS
00:35:41 – AND GET GREAT RESULTS OUT. SO IT’S, IT’S… I’M VERY HAPPY ABOUT THIS.
00:35:46 – >> SO ON MY SIDE, I HAVE ALREADY BEEN.. I HAVE ALWAYS WONDERED ABOUT
00:35:54 – THE POSSIBLE EXISTENCE OF LIFE ELSEWHERE SINCE I’M A KID. AND SO, WHEN I WENT TO COLLEGE TO STUDY SCIENCE,
00:36:00 – I FIRST STUDIED BIOLOGY, BIOCHEMISTRY, BECAUSE I WANTED TO UNDERSTAND WHAT IS LIFE REALLY, THEN I SWITCHED
00:36:05 – TO ASTRONOMY BECAUSE IT WAS THE BEGINNING OF THE EXOPLANET ADVENTURE.
00:36:09 – WE WERE REALLY BEGINNING TO DETECT PLANETS OUTSIDE THE SOLAR SYSTEM AND IT WAS CLEAR THAT WITHIN A FEW DECADES WE WOULD BE NOT
00:36:15 – DETECTING GIANT PLANETS WHICH WERE UNSUITABLE FOR LIFE, BUT PLANETS THAT COULD HOST LIFE THAT WE COULD ..?..TRULY — SO,
00:36:22 – I’VE ALREADY BEEN DEVOTING MY TIME IN SCIENCE TO THIS GOAL.
00:36:27 – AND, THEN WE ARE, WE ARE GETTING NEARLY THERE WITH THIS RESULT.
00:36:31 – IT’S VERY GOOD SATISFACTION FOR ME. >> TO ME, LOOKING FROM THE POINT OF VIEW OF
00:36:39 – NASA SCIENCE PROGRAM, IT’S EXCITING BECAUSE IT’S OF COURSE IT’S A LEAP FORWARD.
00:36:43 – BUT IT GOES IN PARALLEL TO THE OTHER LEAPS WE ARE TAKING RIGHT NOW.
00:36:46 – LOOK AT WHAT’S HAPPENING AT MARS WHERE WE’RE REALLY LOOKING AT THE COMPLEX CHEMISTRY
00:36:51 – THAT’S HAPPENING THERE. LOOK AT THE RECOGNITION THAT MARS ACTUALLY
00:36:54 – IS A PLACE WHERE THERE NOT ONLY USED TO BE WATER BUT THERE’S WATER TODAY.
00:36:58 – ABUNDANT WATER. IN PARALLEL TO THAT, YOU KNOW, THE RECOGNITION
00:37:03 – THAT WE NOW HAVE THE TECHNOLOGY, ABILITY OF GOING TO EUROPA AND ACTUALLY LOOKING AT THAT SYSTEM
00:37:08 – WHICH IS, IN ITS OWN RIGHT, REALLY AN EXCITING SYSTEM.
00:37:12 – BECAUSE, THERE’S AN OCEAN WORLD THERE THAT HITS THE ROCK AT THE BOTTOM IN A REALLY UNEXPECTED
00:37:17 – PLACE. IN IN A, IN A SIDE. THERE’S MANY OTHER PLACES LIKE THAT AND THEN
00:37:22 – THE, ON THE THEORIES SIDE, WE HAVE ALREADY HEARD THAT, KIND OF, THE REALLY UNDERSTANDING OF THE BIOLOGY OF LIFE.
00:37:28 – KIND OF, THERE’S A TREMENDOUS AMOUNT OF PROGRESS. SO TOGETHER, THESE AREAS REALLY CREATE KIND OF A CRESCENDO
00:37:35 – TOWARDS THAT, REALLY ANSWERING THAT QUESTION THAT HAS BEEN ON OUR MINDS FOR SO LONG.
00:37:39 – THIS IS THE RIGHT TIME TO ASK THE QUESTION. IT IS THE RIGHT TIME TO HAVE THIS DISCOVERY
00:37:44 – RIGHT NOW. >> THANK YOU.
00:37:46 – I AM AFRAID THAT’S ALL TIME WE HAVE LEFT. PLEASE KEEP THOSE QUESTIONS COMING BY SENDING
00:37:51 – THEM AT THE HASH ASH… SORRY, HASHTAG #ASKNASA. AND, FOR MORE INFORMATION, AND TO DOWNLOAD
00:37:59 – THE EYES ON EXOPLANETS APP THAT NIKOLE WAS JUST USING EARLIER, PLEASE GO TO NASA.GOV/EXOPLANETS
00:38:08 – AND ALSO DON’T FORGET TO FOLLOW US ON OUR VARIOUS SOCIAL MEDIA.

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