Alejandro Jodorowsky's daring and psychedelic films of the early 1970's, 'El Topo' and 'The Holy Mountain', cemented his status as the Godfather of the Midnight Movie. In 1974, he began work on his next film, possibly the most ambitious film ever attempted. In the pre-Star War era, Jodorowsky’s adaptation of Frank Herbert’s classic sci-fi novel DUNE was poised to change cinema forever. His DUNE would star Brontis Jodorowsky, Alejandro's own 12 year old son, alongside Orson Welles, Mick Jagger, David Carradine and even Salvador Dali. The team of assembled visual artists were some of the most provocative talents of the era, including H.R. Giger, Chris Foss, and Jean ‘Moebius’ Giraud. The groundbreaking special effects were under the control of Dan O'Bannon and the soundtrack would be created by Pink Floyd and the French prog-rock masters, Magma.
For two years, Jodorowsky and his team of 'Spiritual Warriors' worked night and day on the massive task of creating the fabulous world of DUNE. In order to secure the necessary Hollywood funding, they created over 3,000 storyboards, numerous paintings, incredible costumes, and an outrageous, moving, and powerful screenplay. In the words of Jodorowsky’s producer, Michel Seydoux, 'It should have been enough. But it wasn’t.' Through intimate and honest conversations with Jodorowsky, filmed over the span of three years, plus interviews with legends and luminaries including H.R. Giger (artist, ALIEN), Gary Kurtz (producer, STAR WARS) and Nicolas Winding Refn (director, DRIVE and THE NEON DEMON), as well as never-before-seen realizations of Jodorowsky’s mind-blowing psychedelic space opera, director Pavich's film finally unearths the full saga of 'THE GREATEST MOVIE NEVER MADE'.

It is one of the most unnerving discoveries in space science - that most of the universe is missing. We live in a material world, so instinctively we know what normal matter is - the world around us, the planets, stars and interstellar dust. But scientists currently estimate that 95 per cent of everything in the universe is actually - one way or another - invisible.
Some of this is ordinary matter that we just can't easily see. But there's also stuff that's much more weird. For instance, there's a new kind of matter we think is out there, but whose very existence is still largely hypothetical - dark matter. And most mysteriously of all, scientists think there is an unknown form of energy pervading the universe that we know so little about, all it has so far is a name - dark energy. Embark on a tour of this invisible universe, and shows how its existence - or lack of it - will define the fate of the entire universe.

Professor Brian Cox concludes his exploration of our place in the universe by asking what next for the ape that went to space. Our future is far from certain. In Florida, Brian joins the latest efforts to protect Earth from potential catastrophic events. He joins a team of Nasa astronauts who are training for a future mission to an asteroid - should we ever discover one coming our way - under 30 feet of water in a submerged laboratory that simulates space. It is just one example of how, for our long-term survival, space exploration may well be vital. It is a view shared by Apollo 16 astronaut Charlie Duke, who tells Brian what it was like to escape the confines of the planet. It is a dream that both Nasa and now commercial companies share as they race to get humans back into deep space.
But space travel, like every leap our civilisation has ever made, requires energy. Here too, scientists are hard at work attempting to safeguard our future. At the National Ignition Facility in California, Brian witnesses the world's most successful fusion experiment in action. He believes that if their mission succeeds, our civilisation will have unlocked a way to the stars that will not destroy the planet in the process. Brian concludes by returning to the top of the world in Svalbard, where he gains access to our civilisation's greatest treasure, locked away in a vault buried deep in the permafrost.

Professor Jim Al-Khalili investigates the amazing science of gravity. A fundamental force of nature, gravity shapes our entire universe. It sculpts galaxies and warps space and time. But gravity’s strange powers also affect our daily lives in the most unexpected ways. This is a story with surprises in store for Jim himself. In telling the story of gravity, his own understanding of the nature of reality comes to be challenged. Finally, Jim discovers that, despite incredible progress, gravity still has many secrets to unveil.

Deep in the mountains of West Virginia, the Green Bank Observatory has been receiving a mysterious signal from deep space. A team of astronomers has been detecting high-energy bursts erupting from unknown sources far off in space since years ago. But one of them is different from the rest. They call it FRB 121102.
What is actually giving rise to this very powerful flash? Could this be a message from an advanced civilization, or is it a much stranger and violent occurrence? Visit the largest steerable radio telescope on the planet for answers.

This documentary journeys with the scientists into the heart of a giant. Juno is the Nasa mission designed to peer through Jupiter's swirling clouds and reveal the wonders within. By projecting a 70-foot-wide, life-size Juno on a Houston rooftop, Scott Bolton, head of Juno, shows us how its fragile electronics are encased in 200kg of titanium. As Scott puts it, 'we had to build an armoured tank to go there.' Professor Andrew Ingersoll, Juno's space weatherman, reveals they have seen lightning inside Jupiter, perhaps a thousand times more powerful than Earth's lightning. This might be evidence for huge quantities of water inside Jupiter.
Under the extreme conditions of Jupiter thousands of miles under the surface, hydrogen becomes a liquid metal. Juno is finding out how much liquid metallic hydrogen is inside Jupiter, and scientists hope to better understand how this flowing metal produces the most powerful aurora in the Solar System. But what is at Jupiter's heart? In Nice, Prof Tristan Guillot explains how Juno uses gravity to map the planet's centre. This can take scientists back to the earliest days of the solar system, because Jupiter is the oldest planet and it should contain clues to its own creation. By chalking out an outline of the Jupiter, Tristan reveals there is a huge rocky core - perhaps ten times the mass of Earth.