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IN 1972, JOHN BARDEEN, A PROFESSOR AT THE UNIVERSITY OF ILLINOIS, BECAME THE FIRST PERSON
TO WIN TWO NOBEL PRIZES IN PHYSICS.
David Pines: WOULD IT HAVE HAPPENED IF BARDEEN HAD GONE
TO HARVARD, BERKELEY, PRINCETON? I DOUBT IT.
Anthony J. Leggett: HE, NO DOUBT, ONE OF THE MOST DISTINGUISHED
PHYSICISTS OF THE 20TH CENTURY.
Nick Holonyak: THESE OTHER GUYS ARE COMPETING AND PLAYING
PHYSICS WITH ONE ANOTHER. BARDEEN IS PLAYING PHYSICS WITH GOD! (LAUGHING)
JOHN BARDEEN'S PATH TO SCIENTIFIC GREATNESS BEGAN AS THE GREAT WAR CAME TO AN END.
AFTER WORLD WAR II, AMERICA WANTED TO HAVE FUN.
AMERICAN COMPANIES WERE EAGER TO PROVIDE THE LUXURY ITEMS THAT EVERYONE WANTED TO BUY.
THEIR PRODUCTION LINES STOPPED MAKING TANKS AND STARTED MAKING CARS.
ONE OF THE COMPANIES THAT WAS BOOMING AFTER THE WAR WAS AT & T, BUT THEY HAD A PROBLEM.
THEIR COMPLEX SYSTEM OF TELEPHONE LINES CRISSCROSSING THE COUNTRY WERE POWERED AND AMPLIFIED BY
VACUUM TUBES. VACUUM TUBES POWERED ALL ELECTRONICS.
Richard Blahut: THE VACUUM TUBES WERE BIG, BULKY, EXPENSIVE. THEY DIDN'T LAST A LONG
TIME.
THE VACUUM TUBE WORKED IN THE WAY SIMILAR TO A LIGHT BULB. ALSO, LIKE THE LIGHT BULB,
IT GENERATED A LOT OF HEAT, AND IT BURNED OUT.
BY 1945, AT & T'S VACUUM TUBES WERE REACHING THEIR LIMIT. THE COMPANY NEEDED A NEW AMPLIFIER,
SOMETHING REVOLUTIONARY. AT & T AND ITS BELL LABS HIRED THE BEST MINDS IN SCIENCE TO FIND
THE ANSWER. ONE OF THESE MINDS WAS JOHN BARDEEN.
Gordon Baym: JOHN WAS COMPLETELY A GENIUS.
HE WAS JUST SO SMART AND SO CAPABLE AND SO IMAGINATIVE.
Lillian Hoddeson: HE KNEW THAT HE WAS GIFTED.
Bill Bardeen: I THINK MY FATHER IN SOME SENSE HAD A GOOD SENSE OF WHEN TO ATTACK.
Charles Slichter: HE WANTED TO BE THE GUY WHO FOUND THE ANSWER TO THE BIG QUESTION.
David Pines: I THINK, ARGUABLY, MORE THAN ANY SCIENTIST ALIVE IN THE LATTER PART OF
THE 20TH CENTURY, HE CHANGED OUR WORLD.
AT BELL LABS ON DECEMBER 16, 1947, JOHN BARDEEN AND WALTER BRATTAIN INVENTED THE POINT CONTACT
TRANSISTOR. IT SPARKED AN ELECTRONICS REVOLUTION.
John Bardeen: WE KNEW WE WERE ON TO SOMETHING VERY IMPORTANT. TRANSISTORS WOULD HAVE MANY
APPLICATIONS.
(archival footage from Bell Labs) YOU MAY BE ABLE TO GET MUSIC WITH A FLICK OF YOUR
WRIST FROM A SO-CALLED *** TRACY RADIO. AND WITH THE PORTABLE TELEVISION SET, YOU
MAYBE ABLE TO ENJOY VIDEO ENTERTAINMENT ANYWHERE YOU GO.
Richard Blahut: WHAT WE NOW HAVE TODAY THAT WE TAKE FOR GRANTED
ARE CELL PHONES, LAP TOP COMPUTERS, INTERNET, HOME TELEVISIONS OF ALL KINDS, ELECTRONIC
EQUIPMENT IN THE HOSPITALS THAT WE ALL DEPEND ON. ALL OF IT ABSOLUTELY DEPENDS ON THE TRANSISTOR.
Julian Dibbel: WITH THE TRANSISTOR, WE ARE ABLE TO DO THIS
INCREDIBLE AMOUNT OF PROCESSING AT GREAT DISTANCES, TO THE POINT WHERE IT BECOMES MAGICAL. IN
THE BLINK OF AN EYE, THAT COMPLETELY CHANGED OUR RELATIONSHIP TO THE WORLD AROUND US.
Nick Holonyak: WHO KNEW IT WOULD GET THIS BIG?
WHO KNEW? NOBODY.
JOHN BARDEEN WAS BORN ON MAY 23, 1908, IN MADISON, WISCONSIN. THE TEN POUND BOY WAS
THE SECOND SON OF CHARLES AND ALTHEA BARDEEN. CHARLES WAS THE DEAN OF THE UNIVERSITY MEDICAL
SCHOOL, AND ALTHEA WAS A FORMER TEACHER FROM THE PROGRESSIVE DEWEY SCHOOL IN CHICAGO.
ALTHEA REALIZED HER YOUNG SON, JOHN, HAD A TALENT FOR MATH.
Lillian Hoddesson: HE HAD A TENDENCY TO GET VERY BORED WHEN HE WASN'T CHALLENGED. SO HIS
MOTHER KEPT SKIPPING HIM.
Bill Bardeen: WHEN HE WAS TEN YEARS OLD, HE WAS ABLE TO TAKE ALGEBRA. AT THE END OF THE
COURSE, THEY HAD A COMPETITION, AND MY FATHER WON THE COMPETITION.
Lillian Hoddeson: THE FACT THAT JOHN WAS SO MUCH YOUNGER THAN HIS CLASSMATES OBVIOUSLY
AFFECTED HIM SOCIALLY. HE JUST DIDN'T FIT IN.
David Pines: HERE IS THIS TINY LITTLE KID WITH ALL THESE TOWERING PEOPLE AROUND HIM,
SMARTER THAN ANYONE ELSE IN HIS CLASS. SOMEWHERE ALONG THE LINE, HE FIGURED OUT FOR HIMSELF,
"OKAY, I AM GOING TO KEEP QUIET ABOUT THINGS THAT I KNOW. MY PATH FORWARD IS NOT GOING
TO BE ONE OF TELLING EVERYBODY AROUND ME HOW SMART I AM."
THE BARDEEN FAMILY WAS DEVASTATED WHEN ALTHEA DIED FROM BREAST CANCER IN 1920. JOHN WAS
SHOCKED BY THE LOSS.
Hoddeson: I THINK THE STRENGTH THAT HE DEVELOPED MADE HIM MORE ABLE TO HAVE A TOUGHNESS THAT
WAS NECESSARY, NOT ONLY TO SURVIVE IN THE FIELD OF PHYSICS, BUT TO BECOME ONE OF THE
LEADING PEOPLE.
AFTER HIS MOTHER'S DEATH, JOHN STRUGGLED TO KEEP UP HIS GRADES. BUT HE STILL MANAGED TO
FINISH HIGH SCHOOL AT THE AGE OF 13.
IN 1923, HE ENROLLED AT THE UNIVERSITY OF WISCONSIN.
Slichter: BUT JOHN WANTED TO JOIN A FRATERNITY, AND ACTUALLY HE SAVED SOME MONEY UP.
ONE OF THE THINGS HE DID WAS HE PLAYED POOL. HE WAS AN EXPERT POOL PLAYER.
Bill Bardeen: THERE WERE STORIES OF HIM HANGING OUT WITH SOME OF THE SPORTS TEAMS. EVEN THOUGH
HE WAS SO YOUNG, HE SEEMED TO BE ABLE TO GET ALONG WITH PEOPLE WHO WERE OLDER.
JOHN JOINED THE ZETA PSI FRATERNITY AND MADE THE VARSITY SWIM TEAM.
Hoddeson: SPORTS IN A WAY HELPED HIM TRAIN TO BE A STRONGER PHYSICIST; TRY, TRY AGAIN
PHILOSOPHY, AND PRACTICE AND PRACTICE AND PRACTICE, AND BUILD-UP MASTERY.
JUST AS THE COUNTRY WAS SLIDING INTO THE GREAT DEPRESSION, BARDEEN GRADUATED WITH A MASTER'S
IN ELECTRICAL ENGINEERING. HE WAS LUCKY TO BE OFFERED A POSITION WITH THE GULF OIL COMPANY.
AFTER THREE YEARS AT GULF, BARDEEN WENT BACK TO SCHOOL AT PRINCETON. HE HOPED TO STUDY
WITH ALBERT EINSTEIN, BUT EINSTEIN DID NOT WORK WITH STUDENTS.
BARDEEN BECAME CLOSE FRIENDS WITH FELLOW PHYSICS STUDENT, FRED SEITZ. SEITZ WAS WORKING WITH
HIS ADVISOR EUGENE WIGNER ON GROUND BREAKING RESEARCH INTO MATERIALS KNOWN AS SEMICONDUCTORS.
THEY COULD BOTH CONDUCT AND RESIST THE FLOW OF ELECTRICITY DEPENDING ON THEIR CONDITION.
AFTER A FIVE YEAR COURTSHIP, JOHN MARRIED BIOLOGIST AND TEACHER JANE MAXWELL ON JULY
18, 1938.
Pines: JANE WAS COMPLETELY THE RIGHT KIND OF WIFE FOR JOHN. HE HAD KNOWN THIS FOR SOME
TIME. HE JUST DID NOT ASK HER TO MARRY HIM UNTIL
HE HAD A JOB.
Bill Bardeen: IN MANY WAYS, SHE HELPED HIM BECOME THE SCIENTIST HE WAS.
IN THE NEXT DECADE, BARDEEN WOULD INVENT A DEVICE THAT WOULD CHANGE THE WORLD AND BREAK
APART A FRIENDSHIP.
IN 1938, JOHN AND JANE BARDEEN SETTLED INTO A PEACEFUL ACADEMIC LIFE AS JOHN TAUGHT PHYSICS
AT THE UNIVERSITY OF MINNESOTA. BUT CHANGES LOOMED ON THE GLOBAL LANDSCAPE.
HITLER ROSE TO POWER IN GERMANY AND OVERRAN POLAND IN 1939. IT WAS A SIGNAL TO MANY COUNTRIES
TO PREPARE FOR WAR.
WASHINGTON ASKED SCIENTISTS TO SERVE IN THE ARMED FORCES, AND BARDEEN HEARD THE CALL.
ONE OF THE MANY TECHNOLOGICAL IMPROVEMENTS SCIENTISTS MADE FOR THE ALLIED FORCES WAS
ADVANCED RADAR. THEY CREATED A FAR REACHING RADAR THAT COULD
SEE ENEMY PLANES AND SHIPS EVEN AT NIGHT. THE NEW RADARS USED A CRYSTAL DIODE USING
THE MATERIALS SILICON OR GERMANIUM. A DIODE ONLY ALLOWS ELECTRICITY TO FLOW ONE WAY. THE
CRYSTAL DIODE IN THE RADAR CONVERTED THE RADIO WAVES OF THE RADAR SIGNAL INTO SOMETHING THAT
COULD BE SEEN ON A SCOPE.
Slichter: PEOPLE HAD AN IDEA THAT ONE MIGHT BE ABLE TO REPLACE VACUUM TUBES WITH SOMETHING
MADE FROM THE MATERIALS THAT MADE THESE CRYSTAL DIODES.
ONE COMPANY THAT DESPERATELY WANTED TO REPLACE VACUUM TUBES WAS A T & T. AT & T'S RESEARCH
FACILITY, BELL LABS, ASKED WILLIAM SHOCKLEY TO START A NEW SOLID STATE RESEARCH DEPARTMENT.
THE GOAL OF THE GROUP WAS FIND A NEW AMPLIFIER AND SWITCH FOR TELEPHONE LINES.
AT THE END OF THE WAR, BARDEEN ACCEPTED A LUCRATIVE OFFER FROM BELL LABS. HE WAS HIRED
TO WORK WITH WILLIAM SHOCKLEY AND AN EXPERIMENTAL PHYSICIST NAMED WALTER BRATTAIN.
Nick Holonyak: WALTER WAS HANDY IN SETTING UP THINGS AND WAS A CONSIDERABLE EXPERIMENTALIST.
BUT WITH BARDEEN AROUND, WITH WITH HIS POWER OF THINKING AND ANALYZING AND UNDERSTANDING
THE DATA, WALTER WAS A GREAT EXPERIMENTALIST.
WILLIAM SHOCKLEY BELIEVED THEY COULD MAKE AN AMPLIFIER BY USING A NOTION CALLED THE
FIELD EFFECT. SHOCKLEY THEORIZED THAT AN ELECTRICAL FIELD
ERECTED PERPENDICULAR NEAR TO BUT INSULATED FROM THE SURFACE OF A SLAB OF SILICON SHOULD
DRAW ELECTRONS OUT OF THE SEMI-CONDUCTOR MATERIAL AND CREATE A PATH OF CURRENT.
BUT THE EXPERIMENT DIDN'T WORK.
STUMPED, SHOCKLEY ASKED BARDEEN TO TRY AND FIGURE OUT WHAT WAS WRONG WITH THIS FIELD
EFFECT DESIGN. BARDEEN SOON HAD THE ANSWER, STATES AT THE
SURFACE OF THE SEMI-CONDUCTOR WERE TRAPPING THE ELECTRONS, PREVENTING THEM FROM FORMING
THE PATH OF CURRENT.
Hoddeson: BY THIS POINT, SHOCKLEY LOST INTEREST AND LET THEM WORK BY THEMSELVES. SO HE WASN'T
IN THERE. I MEAN HE WOULD BE AROUND TO TALK ABOUT THINGS
AND HAVE MEETINGS AND SO FORTH, BUT HE WASN'T IN THE LAB.
USING BARDEEN'S THEORY OF SURFACE STATES, BRATTAIN AND BARDEEN STRUGGLED ON THE LAB
FOR MONTHS TO BUILD A FIELD EFFECT AMPLIFIER. THEY HAD LIMITED SUCCESS WHEN THEY REPLACED
THE SILICON WITH A SPECIAL KIND OF GERMANIUM. THEY ALSO TRIED VARIOUS LIQUIDS AS THE INSULATOR
ON THE SURFACE OF THE GERMANIUM.
EVENTUALLY THEY TRIED A THIN OXIDE LAYER THAT BARDEEN SAW GROWING ON THE SEMICONDUCTOR SURFACE.
IN ONE EXPERIMENT, BRATTAIN ACCIDENTALLY WASHED THE INSULATOR AWAY. SO THE ELECTRICAL CONDUCTOR
WAS IN DIRECT CONTACT WITH THE GERMANIUM. THE ACCIDENTAL CONTACT ALLOWED THE INJECTION
OF POSITIVE CHARGE CARRIERS KNOWN AS HOLES TO ENTER THE GERMANIUM AND MODULATE THE CURRENT.
BARDEEN AND BRATTAIN COULD NOW DESIGN AN IMPROVED VERSION OF THE DEVICE. BRATTAIN COVERED A
SMALL INVERTED PLASTIC TRIANGLE WITH GOLD FOIL, THEN CUT A RAZOR THIN SLIT IN THE BOTTOM.
THE TRIANGLE WITH THE ATTACHED TWO LINES OF FOIL WAS PRESSED INTO THE GERMANIUM SLAB AND
CARRIED AN ELECTRICAL CURRENT.
Nick Holonayk: IF I PUT SOME CURRENT IN HERE AND GET ALMOST ALL OF THAT OUT OVER HERE,
AND I PUT IT IN LOW VOLTAGE HERE AND TOOK IT OUT AT HIGH VOLTAGE HERE, I HAD AN AMPLIFIER.
AND THAT'S THE POINT CONTACT TRANSISTOR, AND THAT'S THE BIG BREAKTHROUGH DECEMBER 16, 1947.
AFTER THAT, ALL HELL BROKE LOOSE.
Blahut: THE TRANSISTOR IS VERY SMALL, VERY CHEAP.
AT THAT TIME ONE COULD FORESEE THAT VERY COMPLICATED DEVICES COULD BE MADE OUT OF THE TRANSISTOR.
John Bardeen: CERTAINLY A VERY EXCITING DAY, THE FACT YOU CAN CHANGE THE CONDUCTIVITY OF
A SEMICONDUCTOR BY CURRENT FLOW...HAD IT HOOKED UP SO YOU COULD AMPLIFY VOICE AND REALLY SHOW
WHAT IT COULD DO. IT IS REALLY A VERY EXCITING DAY.
Pines: JOHN REALIZED WHAT WAS HAPPENING, REALIZED ITS POTENTIAL RIGHT AWAY. WENT HOME QUITE
EXCITED FOR JOHN, TOLD HIS WIFE THAT SOMETHING INTERESTING HAPPENED AT THE LAB TODAY. SHE
IS FOCUSED ON GETTING DINNER ON THE TABLE FOR THE FAMILY. SHE SAID 'JOHN, COULD YOU
WAIT AND TELL ME ABOUT IT LATER. I REALLY HAVE TO GET DINNER READY.' HER MOMENT PASSED.
BARDEEN GOT A DIFFERENT REACTION WHEN HE SHARED THE GOOD NEWS WITH SHOCKLEY. HE WAS STUNNED.
Pines: I THINK HE WAS ENORMOUSLY FRUSTRATED BY THE FACT THAT BARDEEN AND BRATTAIN HAD
FOUND THIS ON THEIR OWN WITHOUT ANY DIRECT INVOLVEMENT OF SHOCKLEY. BUT HE ALSO TOOK
OVER IN SAYING TO BARDEEN "I WANT YOU ONLY TO WORK ON A AND B, AND KEEP YOUR COTTON PICKING
HANDS OFF C, D, AND E. THAT'S MY TERRITORY".
Holonyak: JOHN'S PERSONALITY WAS SUCH THAT HE WAS NOT GIVEN TO ARGUMENT. HE WAS A DEEP
THINKER, AND HE WAS METICULOUS THINKER AND ALL THAT, BUT HE WASN'T A QUICK TONGUE GUY.
JOHN WOULD SIT THERE AND NOT SAY ANYTHING.
Hoddeson: HE WAS VERY, VERY, VERY ANGRY, BUT THE ANGER WAS MOSTLY BOTTLED UP.
BARDEEN MADE A DECISION TO LEAVE BELL LABS. HE ASKED HIS FRIEND, FRED SEITZ IF HE KNEW
OF ANY JOBS IN ACADEMIA. SEITZ WAS A PHYSICS PROFESSOR AT ILLINOIS.
HE MADE A PROPOSAL TO THE DEAN OF THE COLLEGE OF ENGINEERING, WILLIAM EVERITT.
Holonyak: SEITZ WENT TO BILL EVERITT AND SAID "WE HAVE A CHANCE NOW TO GET A REAL BIG GUY."
Hoddeson: FRED UNDERSTOOD HOW SMART BARDEEN WAS BECAUSE HE HAD KNOWN HIM SINCE GRADUATE
SCHOOL.
Blahut: IT TOOK A VERY GOOD ELECTRICAL ENGINEERING DEPARTMENT, VERY GOOD PHYSICS DEPARTMENT,
AND MADE THEM ABSOLUTELY THE BEST IN THE WORLD.
BARDEEN NEVER FORGOT THE WAY HE WAS TREATED BY WILLIAM SHOCKLEY. YEARS LATER HE WAS SHOWING
A COVER OF AN ELECTRONICS MAGAZINE TO NICK HOLONYAK, AND IT REMINDED HIM OF HIS LAST
YEARS AT BELL LABS.
Holonyak: HE SAID, "BOY, WALTER HATES THIS PICTURE."
AND I SAID "WHY, JOHN? NOT FLATTERING OR SOMETHING?" HE LOOKED AT ME AND MADE A FACE, AND HIS HEAD
WENT LIKE THIS, "NO." HE SAYS, "THAT'S WALTER'S EQUIPMENT AND OUR EXPERIMENT, AND BILL DIDN'T
HAVE ANYTHING TO DO WITH IT."
DURING THE SUMMER OF 1951, JOHN BARDEEN MOVED HIS WIFE AND THREE CHILDREN TO CHAMPAIGN,
ILLINOIS.
Hoddeson: THE MOST IMPORTANT THING THAT ILLINOIS OFFERED HIM WAS A SUPPORTIVE COMMUNITY IN
WHICH HE COULD SOLVE THE PROBLEMS THAT HE SELECTED TO SOLVE.
THE BARDEEN'S BOUGHT A HOUSE NEAR THE GOLF COURSE FOR JOHN TO ENJOY HIS FAVORITE PASTIME.
BARDEEN'S LOVE OF SPORTS EXTENDED TO FOOTBALL, AND HE TOOK HIS FAMILY TO ALL THE HOME ILLINI
GAMES.
Bill Bardeen: WE WENT TO THE ROSE BOWL ONE YEAR WHEN ILLINOIS WAS PLAYING. HE SPENT HOURS
BEING CATCHER AS I WAS A LITTLE LEAGUE PITCHER HELPING ME IMPROVE MY FAST BALL. SOMETIMES
PEOPLE THINK "WELL, DID HE SIT YOU DOWN AND TEACH YOU PHYSICS AT THE BREAKFAST TABLE WHEN
YOU WERE FIVE YEARS OLD?" IT WASN'T THAT WAY AT ALL.
Pines: YOUR AVERAGE REALLY GREAT SCIENTIST IS NOT AN ESPECIALLY SUCCESSFUL FATHER. JOHN
WAS AN AMAZINGLY SUCCESSFUL FATHER.
THE FALL OF 1951, BARDEEN LED A SEMINAR ON THE TRANSISTOR. SITTING IN THE AUDIENCE WAS
ELECTRICAL ENGINEERING GRADUATE STUDENT, NICK HOLONYAK.
BARDEEN USED A SMALL PLASTIC BOX TO DEMONSTRATE HOW THE TRANSISTOR WORKED.
WHEN HE TURNED IT ON, IT PLAYED THE TUNE "HOW DRY I AM."
Holonyak: HE FLIPPED ON A SWITCH, AND THE THING WAS ON INSTANTLY. SEE, EVERYTHING THAT
WE KNOW ABOUT IN ELECTRONICS IS VACUUM TUBES, YOU FLIP ON A SWITCH, AND YOU WAIT FOR EVERYTHING
TO WARM UP. I ALMOST FELL OUT OF THE CHAIR BECAUSE I KNOW
HOW TO DO ELECTRONICS. I AM ALREADY A GRAD STUDENT AND.
I UNDERSTAND THIS STUFF, AND NOTHING WORKS LIKE THAT.
UH-OH, I KNOW THIS IS DIFFERENT. I COULD SEE RIGHT AWAY THAT THIS MAN PLAYS
A DIFFERENT GAME.
WHEN HOLONYAK LEARNED BARDEEN WAS GOING TO SET UP A SEMICONDUCTOR LABORATORY, HE RUSHED
TO JOIN THE GROUP. SOME OF HIS FELLOW GRADUATE STUDENTS LAUGHED
AT THE IDEA.
Holonyak: YOU ARE NUTS. THAT'S NOT GOING ANYWHERE. WELL, OF COURSE, THE JOKE NOW IS ON THEM.
AT ILLINOIS, JOHN WANTED TO TACKLE A PROBLEM THAT HAD DOGGED HIM SINCE GRADUATE SCHOOL.
HE WANTED TO SOLVE THE MYSTERY OF SUPERCONDUCTIVITY.
Slichter: IF YOU GOT CERTAIN METALS LIKE LEAD OR TIN, VERY COLD, DOWN NEAR THE ABSOLUTE
ZERO, THAT IF YOU STARTED THE ELECTRIC CURRENT FLOWING IN A WIRE, THAT THE CURRENT WOULD
KEEP ON GOING EVEN IF YOU DIDN'T HAVE A BATTERY. SO IT WAS LIKE A PERPETUAL MOTION MACHINE.
HE WAS CHALLENGED BY THAT THING, AND IT WAS A CHALLENGE AGAINST HIM.
Leggett: IT HAD BEEN RECOGNIZED FROM THE VERY START AS A KEY MYSTERY OF CONDENSED Matter
PHYSICS. JUST ABOUT EVERYONE WHO HAD ANY KIND OF REPUTATION
IN NOT JUST condensed matter PHYSICS, BUT PHYSICS in GENERAL HAD A SHOT at EXPLAINING
SUPERCONDUCTIVITY.
BARDEEN'S THOUGHTS WERE TAKEN AWAY FROM SUPERCONDUCTIVITY WHEN HE HEARD THE NEWS ON THE MORNING OF NOVEMBER
1, 1956. HE DROPPED A FRYING PAN OF EGGS WHEN HE LEARNED
HE HAD WON THE NOBEL PRIZE IN PHYSICS.
BARDEEN, BRATTAIN AND SHOCKLEY WON FOR THE INVENTION OF THE TRANSISTOR.
WHEN BARDEEN RETURNED FROM STOCKHOLM, HE ACHIEVED ANOTHER LIFELONG GOAL, A HOLE-IN-ONE. YEARS
LATER, CHARLES SLICHTER WAS AMAZED TO LEARN THAT SOME OF BARDEEN'S GOLFING BUDDIES DID
NOT KNOW HE HAD WON A NOBEL PRIZE. TRUE TO FORM, BARDEEN DID NOT BRAG ON THE COURSE.
Slichter: MY FEELING WAS THAT SOMEHOW OR ANOTHER, IF I HAD WON A NOBEL PRIZE, I WOULD MANAGE
TO GET IT IN THE CONVERSATION SOMEHOW.
IN THE NEXT THREE MONTHS, BARDEEN'S GOOD LUCK STREAK CONTINUED.
HE ANNOUNCED HE, ALONG WITH ROBERT SCHRIEFFER AND LEON COOPER, HAD SOLVED A 45 YEAR OLD
MYSTERY THAT PUZZLED THE GREATEST MINDS IN SCIENCE.
Break 3
BARDEEN WAS EAGER TO GET BACK TO WORK AT ILLINOIS AFTER WINNING THE 1956 NOBEL PRIZE.
HE FELT HIS TEAM WAS CLOSE TO AN ANSWER ABOUT THE MYSTERY OF SUPERCONDUCTIVITY.
Bill Bardeen: WHEN THEY LEARNED A LOT ABOUT WHAT WAS GOING ON, BUT HADN'T QUITE PUT ALL
THE PIECES TOGETHER, MY FATHER HAD A COCKTAIL PARTY FOR SOME VISITING RUSSIAN SCIENTISTS.
MY FATHER SEEMED TO BE STARING OFF INTO SPACE EVERY SO OFTEN AND DIDN'T SAY VERY MUCH.
YOU COULD TELL THAT MY FATHER'S MENTAL WHEELS WERE TURNING. SATURDAY MORNING, I THINK SCHRIEFFER
GOT A CALL RATHER EARLY IN THE MORNING SAYING "I THINK I HAVE SOLVED IT."
BARDEEN RAN INTO CHARLES SLICHTER IN THE HALLWAY OF THE PHYSICS BUILDING.
Slichter: I WAITED FOR HIM TO SAY WHAT IT WAS HE WAS PLANNING, AND HE FINALLY SAID "WELL,
I THINK WE HAVE FIGURED OUT SUPERCONDUCTIVITY." THAT WAS, I SUPPOSE, ONE OF THE MOST EXCITING
TIMES, EVENTS IN MY WHOLE SCIENTIFIC LIFE.
BARDEEN SHARED THE CREDIT WITH DOCTORAL STUDENT, BOB SCHRIEFFER, AND HIS POST-DOC, LEON COOPER.
IT BECAME KNOWN AS "BCS."
Slichter: IT IS ONE OF THE MOST IMPORTANT THEORETICAL DEVELOPMENTS OF THE PREVIOUS CENTURY.
THERE IS NO DOUBT ABOUT IT.
FOR THE FIRST TIME, SCIENTISTS UNDERSTOOD ON A MICROSCOPIC LEVEL HOW MATERIAL BECAME
A SUPER CONDUCTOR.
Pines: WHAT YOU WOULD LIKE IS TO BE ABLE TO MAKE A POWER LINE OUT OF SUPER CONDUCTING
WIRES.
Slichter: YOU WOULDN'T WASTE ANY OF THE ENERGY TRYING TO GET THE ELECTRICITY FROM THE PLACE
WHERE YOU GENERATE IT TO THE PLACE WHERE YOU USE IT.
ON OCTOBER 19, 1972, BARDEEN LEARNED HE HAD BECOME the FIRST PERSON TO WIN A SECOND NOBEL
PRIZE IN PHYSICS. BARDEEN, COOPER AND SCHRIEFFER WON FOR THEIR
THEORY OF SUPERCONDUCTIVITY.
Baym: Leo Kadenoff SENT A WONDERFUL NOTE SAYING ON THE SECOND PRIZE "CONGRATULATIONS, JOHN.
WITH WITH THE THIRD, YOU GET TO KEEP THE KING."
Bill Bardeen: 1956, THE KING ASKED MY MOTHER, "WELL, WHERE IS THE FAMILY?" AND SHE SAID
"WELL, THEY ARE AT HOME IN SCHOOL." HE SAID, "WELL NEXT TIME BRING THEM."
BARDEEN RETURNED TO ILLINOIS AND CONTINUED TEACHING UNTIL MARCH OF 1975. IN HIS RETIREMENT,
HE CONTINUED TO BE A LEADER IN SCIENCE BY SERVING AS AN ADVISOR TO THE YOUNG HAILOID
COMPANY WHICH BECAME XEROX. HE WAS ALSO CLOSE TO THE SONY CORPORATION
AND MADE MANY TRIPS TO JAPAN. JOHN BARDEEN PASSED AWAY ON JANUARY 30, 1991.
Baym: JOHN WAS FULFILLED, BUT CERTAINLY JOHN WAS STILL DRIVEN. HE WAS after NOBEL PRIZE
NUMBER THREE. I THINK HE WAS ONE OF THE GREAT SCIENTISTS OF ALL
TIME.
Blahut: JOHN BARDEEN DID A LOT FOR THE WORLD. HE DID A LOT FOR CIVILIZATION. HE DID A LOT
FOR THE FUTURE.
Holonyak: AND HE WASN'T THERE TRYING TO MAKE THE WORLD BETTER FOR BARDEEN. HE WAS TRYING
TO MAKE THE WORLD BETTER BECAUSE WE HAVE TO.
Slichter: HE WASN'T JUST A SCIENTIST. HE WAS TRULY A GREAT HUMAN BEING.