Dr White said the spacecraft could reach Alpha Centauri in two weeks

Called IXS Enterprise, it is similar to the Star Trek ship of the same name

The interstellar spacecraft builds on previous designs that thoeretically allow distant travel by bending space-time

A Nasa scientist in Houston worked with an artist to create the concept

Last month, Dark Knight director Christopher Nolan unveiled his next science-fiction blockbuster.

Called Interstellar, it envisages a future where travel to other stars is not only a possibility but a necessity, and tasks actor Matthew McConaughey with leading the main mission.

But a Nasa scientist claims such a mission isn’t necessarily just something reserved for science fiction - and has revealed a Star Trek-style ship that could make interstellar travel a reality.

Pictured is an illustration of Dr White's IXS Enterprise, an interstellar ship drawn by artist Mark Rademaker that could be an accurate representation of what the first mission beyond the solar system will look like. The IXS Enterprise is a theory-fitting concept for a faster than light (FTL) ship

Dr Harold White is famous for suggesting that faster than light (FTL) travel is possible.

THE 100-YEAR STARSHIP PROJECT The 100-year Starship Project is a joint endeavour run by Darpa, Nasa, Icarus Interstellar and the Foundation for Enterprise Development. Announced in January 2012, the project has an overall goal of achieving manned interstellar travel by 2112. To do so it is evaluating a number of different techonolgies, including ‘warping’ space time to travel great distances in short time frames at faster-than-light speeds. The project is also considering building ‘generation ships’ that move slowly but have a self-sustainable long-term population. To date Nasa has contributed $100,000 (£60,000) to the project and Darpa $1 million (£600,000). Advertisement

Using something known as an Alcubierre drive, named after a Mexican theoretical physicist of the same name, Dr White said it is possible to ‘bend’ space-time, and cover large distances almost instantly.

This, in essence, would allow a spaceship to travel almost anywhere in a tiny fraction of the time it would take a conventional spacecraft.

The ship in Nolan’s Interstellar movie, as well as those in Star Trek, employ a warp engine.

And, in a series of new renders, Dr White reveals how a real spacecraft dubbed the IXS Enterprise could do the same thing.

The images are based on the artist who created the original look for the famous USS Enterprise ship from Star Trek - Matthew Jeffries.

To make the latest renders Dr White employed the help of artist Mark Rademaker and graphic designer Mike Okuda.

The ship has a number of features that make interstellar travel possible. This includes the two rings surrounding the central spacecraft - these are known as an Alcubierre drive and are used to 'warp' space-time and travel many light years in a matter of days

The engine for Dr White's ISX Enterprise is based on something known as the Alcubierre drive. As shown in the illustration above this stretches space-time in a wave that causes the fabric of space-time ahead to contract while expanding the space behind, theoretically allowing 'faster than light' travel

Although the speed of light is seen as an absolute, Dr White was inspired by Miguel Alcubierre, who postulated a theory that allowed for faster than light travel but without contradicting Einstein .

Alcubierre's theory was published in 1994 and involved enormous amounts of energy being used to expand and contract space itself - thereby generating a 'warp bubble' in which a spacecraft would travel.

Allowing space and time to act as the propellant by pulling the craft through the bubble would be like stepping on an escalator.

Despite Dr Alcubierre stating his theory was simply conjecture, Dr White thinks he and his team are edging towards making the realm of warp speed attainable.

This illustration shows Dr White's design in its entirety. Struts around the spacecraft show how it would be directly attached to the rings. At the front is the 'bridge' where the crew would conduct operations on the spacecraft. Towards the back is the cargo area where so-called exotic matter for fuel would be stored

According to Gizmodo, their engine could get to Alpha Centauri in two weeks as measured by clocks on Earth.

The process of going to warp is also one that is smooth, rather than using a massive amount of acceleration in a short amount of time.

'When you turn the field on, everybody doesn't go slamming against the bulkhead, which would be a very short and sad trip,' Dr White said.

However, Dr White admits his research is still small-scale and is light years away from any type of engine that could be constructed into a spaceship like the USS Enterprise.

In Christopher Nolan's upcoming film Interstellar, due for release in November, a team of astronauts undertake a mission beyond the stars to save humanity. To get there they use an Alcubierre drive, shown above in a clip from the film - the same engine envisaged by Dr White of Nasa for his Star Trek-style spacecraft

The ship at the centre of Dr White's IXS Enterprise would need to be small enough to fit inside the rings and it would need to not stick out too much. This is because when the rings are activated they will create a 'warp bubble', and anything outside of this will be cut off when the jump is made, according to Dr White

Look familiar? Dr White's design for the IXS Enterprise bears a striking similarity to the USS Enterprise as seen in various Star Trek TV shows such as Star Trek: The Next Generation, seen here. In the show this science vessel was used to 'explore strange new worlds' and 'seek out new life and new civilisation'

To make the dream a reality Dr White has laid out a road map with important milestones that will need to be met along the way to achieving true interstellar travel.

This begins with tests on Earth to prove the technology is possible.

These initial experiments are very crude and very basic - but, if proved, there is, in theory, no limit to how it can be applied.

The next step will be to use the warp technology on a spacecraft and complete a short trip to the moon, followed by a trip to Mars.

This would ultimately test the technologies that would be necessary to complete ‘jumps’ beyond the solar system and reach destinations in a matter of months, weeks or even days.

Illustrated here is a previous design from Dr White and Rademaker. This concept had a number of flaws. First, the rings were too thin, meaning they would have needed too much energy for warp travell. Second, part of the ship extends out of the rings, which would have been cut off when the 'warp bubble' was created

The main limitation is energy - previously it was thought mass equivalent to a planet would be necessary to provide the energy required for a warp jump.

But revised suggestions suggest mass similar in size to a car might be more realistic.

The research has done enough to pique the interest of Nasa and other agencies.

The Defense Advanced Research Projects Agency (Darpa), for instance, is currently carrying out the 100-year-starship project with a view to sending humans outside the solar system at the turn of the next century.

The rings around the spacecraft (shown) would actually shift the surrounding space. The drive would require something known as exotic matter to work, hypothetical particles that violate the known laws of physics (possibly such as dark matter), but as of yet none have been found or created