Outrageous Outreach

You might have noticed that I’m still very excited about the discovery of gravitational waves … judging from the media I’m not the only one. This week gravitational waves hit the Late Show with Stephen Colbert 

This was not the first time science made it to tv shows: the Hubble Space Telescope was featured on The Tonight Show with Jimmy Fallon: and not just once but twice!

 
Astronomy is so cool that it can be featured on the covers of music albums, such as Joy Divison’s or Megadeth’s:
Megadeth_LHC_album

Megadeth “Super Collider” album cover

Other than in music, science can end up in poems: you can find examples here on my blog or on Sam Illingworth’s
A master of outrageous outreach is certainly Stephen Hawking: he’s a regular at the Big Bang Theory tv show, has played quantum chess with actor Paul Rudd and, last but not least, appeared in holographic form to console a teenager saddened by One Direction’s split.

 

In another post I told you about CERN being featured at Rio Carnival but science looks good on dresses, too.
Make sure you check all of Shenova’s work as well as Startorialist‘s.
A welcome incursion in people’s everyday life is the installation of cosmic rays detector in one of Naples metro stations by the Italian Narional Institute for Nuclear Physics. 
NOTE
The term Outrageous Outreach was coined in this paper about unconventional ways of bringing science to the wide public by meeting people where they are on the basis of their interests; a similar approach is the one I dubbed “Marketing Strategy” in my white paper about how to popularize science today

Warped Space

Have I celebrated the discovery of gravitational waves too much?
I can’t see straight! 😉

I have forgotten to write down where this pic was taken: if you have relative info, please tell me.

I have forgotten to write down where this pic was taken: if you have relative info, please tell me.

 

BH_in_front_of_Building

This is a simulation of what  you’d see if a black hole passed in front of a building such as this one: I think it is a research institute in Germany but I’m not sure, so whatever info you may have please share it.

 

While I’m at it, let me post the coolest car plate I’ve found so far: it belongs to one of LIGO scientists but you’re welcome to get inspiration by her.

GW_car_plate

Why so genius?

My apologies for insisting with Einstein’s stuff but the celebrations for the discovery of gravitational waves have to go on!

Take a look at this search on eBay for t-shirt with Einstein as a subject: this is so awesome! Special thanks to Andrea for stirring me to this! If you guys know of other cool stuff like this, just whistle!

On a related note, LISA Pathfinder is going great!

Onde gravitazionali e scimmie parlanti

<< C’era una scimmia … è stata seduta sulle mie spalle per 40 anni. E mi sussurrava all’orecchio:

“Che cavolo ne sai che funzionerà? Ti sei portato appresso un sacco di gente … pensa se non dovesse funzionare mai!”

Adesso se n’è andata … all’improvviso.
Ora mi sento leggero. >>

Così parlava l’altro giorno in un’intervista Rainer Weiss, padre dell’esperimento LIGO che ha rilevato le onde gravitazionali per la prima volta nella storia dell’umanità. Il Professor Weiss ha scritto l’articolo in cui dava corpo al concetto di LIGO nel 1972, quarantaquattro anni fa … 44!

Ora ci dice che durante tutto questo tempo ha sofferto e dubitato come facciamo noi nella nostra quotidianità … lui, che probabilmente a ottobre vincerà il Nobel per la Fisica, ha uno spirito che vibra sulle nostre stesse corde, di dubbio e timore di non farcela …

Grazie, Rai, per aver avuto il coraggio di aprire il tuo cuore! Grazie per esserti rivelato così … umano.

img_8064

Waves of emotions 

I had goose bumps reading the interview with the father of LIGO, Rainer Weiss, who imagined LIGO in a 1972 paper, 44 years ago!

“I feel an enormous sense of relief and some joy, but mostly relief. There’s a monkey that’s been sitting on my shoulder for 40 years, and he’s been nattering in my ear and saying, “Ehhh, how do you know this is really going to work? You’ve gotten a whole bunch of people involved. Suppose it never works right?” And suddenly, he’s jumped off. It’s a huge relief.”

Thank you, Professor Weiss, for reminding everyone that scientists are men and women driven by emotions as strong as their passions!   

La pizzica dei buchi neri

Scoperte le onde gravitazionali!
“Quali, quelle di Goldrake?”
“No, quelle di Einstein!”

Lo scienziato spettinato ha capito che lo spazio e il tempo non sono spettatori passivi di eventi che accadono sulla loro scena: sono essi stessi attori e coprotagonisti! La materia e l’energia fanno curvare lo spazio-tempo il quale, così deformato, indica il cammino che materia ed energia seguono nel navigare il mare del cosmo.

Più che un cammino, è una danza. Come discutevo con mia cugina, i buchi neri ballano la pizzica! oppure il minuetto … e, come loro, anche delle stelle così dense e compatte che ne fai entrare una al centro di Roma (o di New York, come nell’immagine qua sotto).

Neutron_Star_vs_Manhattan

“Che ce frega?”

diranno alcuni. “Lasciamo tranquillo Einstein ché tanto ormai c’ha poco da ballare nella tomba”. Il fatto è che, quando ci raggiunge sulla Terra, un’onda gravitazionale è infinitesima e, per essere sicuri di averne udita l’eco, bisogna avere un modello il più preciso possibile del segnale atteso, in modo da distinguere questo sussurro cosmico dai rumori di fondo. Questo si può fare solo con l’ausilio di computer super potenti e messi insieme a gruppi perché, anche qui, l’unione fa la forza. La necessità di dotarsi di strumenti di calcolo adeguati cominciò già negli anni ’60 e fu poi ripresa negli ’80, dando così la spinta allo sviluppo e dei supercomputer e dei programmi che ci girano sopra. Oggi lo diamo per scontato ma il primo browser per internet è nato in questo contesto e le simulazioni al computer su larga scala sono cruciali per prevedere il meteo e il clima, ad esempio, oppure studiare la fattibilità di certe molecole per la medicina e l’industria.

Ora che sei convinto che bisogna ringraziare Einstein e chi, come lui, passa il tempo a indagare la natura dell’Universo, goditi l’animazione che ho prodotto insieme a due collaboratori fichissimi per condividere con te di cosa si parlerà da oggi in poi in fisica e astronomia.

Einstein_At_Home

Anche tu puoi contribuire a questa impresa

Basta che ti scarichi lo screen-saver Einstein@Home che impiega la potenza di calcolo inutilizzata del tuo computer per cercare nei dati un segnale potenzialmente proveniente da una stella di neutroni. Vai col surf allora!

Catching a wave from space

I love taking walks, especially by the Leman Lake. I go there when I feel like stretching my legs and refreshing my brain. I’m there now, in company of swans, ducks and seagulls as they enjoy their life. A few of them are singing, others are flying, others are swimming. As they do so they leave trails behind them, ripples on the lake’s surface that gradually widen in aperture as they depart from their points of origin, the swimming birds. Every now and then a stronger wave reaches the shore where I am: tumultuous, with more pronounced ups and downs, I immediately suspect it coming from something a bit heftier than a swan. It’s a boat, carrying people and momentarily interrupting an otherwise perfect peace.

IMG_7565

The situation I just observed is a poetic version of something right on spot in high end physics research: gravitational waves, the ripples in the cosmic sea of the Universe that are generated by mass and/or energy when in accelerated movement. Waves are ubiquitous in the Universe. They can be produced in a variety of ways, even familiar ones: with a musical instrument, that transfers its vibrations to our ears through air, switching on a lamp, thus provoking electron excitations in the filament, which then relax and release light, with an x-ray machine that sends high energy photons through our bodies.

Talking about relaxation, something that I’d like to do, other than walks, to give vent to the occasional pressure is playing a big drum with mallets. Waves again, yet in the form of sound, originated by the deformations I cause on the drum’s membrane by hitting it with the mallets. Probably less appealing to the ear than swans’ singing as I’m not gifted with musical capacity.

But I’m fond of Einstein and he was a very fine composer of the melodies of the Universe. He conceived one special symphony, a tale of massive bodies bumping into each other in the loneliness of the Universe, clinging to this encounter as the last one in their life and celebrating it with a dance that will bring them closer and closer, until they merge into one.

Listening to these melodies will allow us to reconstruct the furious dance that accompanied the bodies merger and infer a lot about a behavior of the Universe that we’re otherwise blind about. Or rather deaf.

This silence has finally been shattered now, by one of the most sensitive microphones ever built: LIGO, a machine that is capable of detecting a bulk vibration smaller than the size of an atom, should have heard the cosmic melody due to two black hole mallets hitting on the stiff membrane of spacetime.

Up until today we hadn’t been able to listen to any cosmic concert, we had only observed the movement of the percussionists: two very compact stars, approaching each other just as Einstein’s choreography dictates, a Nobel Prize discovery.

The difference between the two perspectives is fundamental … here comes another Nobel Prize! History really has a huge sense of humor, if all this happens a 100 years after Einstein wrote down the score of the symphony.

I’ve recently had the privilege to work on this animation about gravitational waves, together with the gifted Jorge Cham, artist and scientist, and Daniel Whiteson, a physicist who likes to do this type of outreach just as much as I do. There are both a video and a comic of this animation that you can find translated in many languages now. In what follows I would just like to mention a couple of things that didn’t fit in the narrative we adopted.

Visualizations and Sounds

If you’d like to see how you’d be changed by a (humongous) passing gravitational wave, go try this app!
To listen to the sounds corresponding to gravitational waves emitted by different sources, put your headphones on and head over to this website.

Spinoffs 

Supercomputers are crucial in gravitational wave research, for example to simulate black hole collisions. First in the ’60s and then in the ’80s, the need was recognized to develop and put together clusters of very powerful computing machines that would later bring about the first Internet browser and a physical infrastructure which is crucial to forecast weather, for example, or study the feasibility of molecules for medical and industrial purposes.

How can you be part of it?

Citizen science project Einstein@Home lets you contribute “to make the first direct detections of gravitational-wave emission from spinning neutron stars“, by running a useful screensaver on your personal computer. In fact, as we can read in LIGO Magazine #7, “searches for continuous GW signals are computationally limited and require relatively little data for very long processing times. This makes a volunteer computing project a very good match for the problem.

Now go catch your wave from space!

Einstein_At_Home

Update following the announcement of the discovery

Did Einstein@Home play any role in this? No, it didn’t. The signal in the instrument lasted only about 1/4 of a second. It’s not a continuous-wave signal like the type that Einstein@Home has been searching for. But since the observing run ended in mid January, we have been preparing the data to start a new low-frequency all-sky search for continuous gravitational waves. We are now starting to run this on Einstein@Home, so please sign up your computers and disable their sleep mode! In the next months we will extend the frequency range of the continuous waves all-sky searches, target interesting point sources and we are also gearing up to perform broader surveys for binary black hole mergers.

Bruce Allen

Director, Einstein@Home 

The emotions of the first person to imagine LIGO

I feel an enormous sense of relief and some joy, but mostly relief. There’s a monkey that’s been sitting on my shoulder for 40 years, and he’s been nattering in my ear and saying, “Ehhh, how do you know this is really going to work? You’ve gotten a whole bunch of people involved. Suppose it never works right?” And suddenly, he’s jumped off. It’s a huge relief.

Read the rest at the MIT News bulletin.