(CNN) — London to Melbourne in 90 minutes? Paris to San Francisco in under an hour?
That's travel at 25 times the speed of sound -- or barely enough time to take in an in-flight movie.
Few areas of aviation generate wilder predictions than hypersonic flight -- but a team in Germany might just have cracked it.
Hypersonic means speeds of Mach 5 or over, or more than five times the speed of sound. Supersonic is Mach 1, or the speed of sound.
Since the withdrawal of the Concorde in 2003, commercial aviation has remained purely subsonic, but that could change in the coming decades.
Take new aircraft concepts like the Japanese HYTEX, capable of speeds of Mach 5, or the European Lapcat-II, expected to reach Mach 8.
Then there's the nascent space tourism industry, with companies such as Virgin Galactic and XCOR Aerospace hoping to take a select few on leisure trips to the edge of space.
A team has applied space technology principles to propose what is possibly the world's most advanced hypersonic airliner concept to date.
The result of 10 years of ongoing research by the Space Launcher Systems Analysis (SART) department at the Institute of Space Systems in Bremen, the SpaceLiner is a revolutionary hypersonic spaceplane concept capable of flying some 50 passengers across the globe at speeds of up to 25 times the speed of sound.
It's based on a two-stage concept, not unlike the Space Shuttle, where both the booster and passenger stages start in an upright configuration.
Propelled by 11 rocket engines during launch (nine on the booster stage and two on the passenger stage) the system accelerates into the mesosphere using traditional cryogenic rocket propulsion.
Once the booster stage is empty, the smaller passenger vehicle separates from the booster stage and continues accelerating, flying autonomously, just like an aircraft -- except that it does so while reaching astonishing speed of up to Mach 25.
After reaching a maximum altitude of about 80 kilometers, the passenger stage commences a gliding descent towards its destination.
Not only is the SpaceLiner concept incredibly fast, it's also environmentally friendly.
It uses liquid oxygen and liquid hydrogen (LOX/LH2) propellants so only water vapour is produced.
Most of the flight processes will be fully automated, but there would still be two pilots to monitor all onboard and flight procedures -- and to provide reassurance to passengers.
Re-usability is key
Traveling at Mach 25? Better choose one of the shorter in-flight movies.
With performance like this, it'd be possible to go from Europe to Australia in 90 minutes.
The SpaceLiner hopes to capture a slice of the existing very-long-haul premium air travel market, but this will only be possible if costs can be brought down to a reasonable level.
Up until now everything that relates to space travel has been prohibitively expensive, which explains why this field has remained the preserve of a handful of governments and ultra-rich individuals.
SART researcher Dr. Olga Trivailo explains that the high costs are "due to limited technology application and, thus, demand, which underpins low production rates of space systems."
One of the keys to lowering costs, and a cornerstone of the SpaceLiner project, is re-usability.
The SpaceLiner vehicle is designed to be fully re-usable, from the system's engines, to the passenger vehicle and the booster stage, which would be able to return independently to the launch site after separating from the passenger stage.
The rocket engines are expected to withstand at least 25 launches, while both stages might last up to 150 cycles.
The DLR engineers have avoided relying on any untested technology.
It'd add too much complexity, risk, and development time to what is already an extremely complex project.
A laboratory for new ideas
The SpaceLiner's passenger stage will start off in an upright position, meaning that seating arrangements will need to differ from those of conventional airliners.
During the first 10 minutes of flight, passengers will experience forces of up to 2.5G -- 2.5 times their body weight on Earth, or about half the G forces you'd get on a roller coaster.
There's no need for passengers to undergo special training as they would with space travel, but the advent of hypersonic flight still presents a great opportunity to test new passenger cabin concepts.
Architects and designers have been brought into the SpaceLiner project to help devise the passenger experience of the hypersonic era.
Wealthy investors will be needed to make the concept work.
The hypersonic flight market
Even if costs can be brought down, hypersonic flight is likely to remain a premium product, at least at the beginning.
The number of potential routes flown by the SpaceLiner would be limited to intercontinental distances of more than 9,000 kilometers, where the time-saving would be most beneficial.
Potential routes could include Australia to Europe, as well as linking destinations in the Far East, Europe, America's West Coast and the Trans-Pacific market.
The SpaceLiner would need space ports to be strategically located close to main population centers and business hubs in order to capture business traffic, while at the same time being sufficiently removed from densely populated areas in order to minimize noise issues during take-off.
Coastal locations are the most desirable so that the starting phase can occur over water.
SART has already identified several suitable launch sites in Europe, Australia and the U.S. that meet these criteria, with the Netherlands' north coast being a particular favorite.
It will take some time to fly hypersonic
According to SART's own estimates, SpaceLiner flights are still a few decades away, maybe as much as 30 years.
If it's ever to become a reality, the SpaceLiner will need the involvement of the aerospace industry as well as investors with deep pockets.
Dr. Trivailo estimates that the SpaceLiner would require an initial investment of 28 to 30 billion euros ($30 to 32 billion) to make it to the prototype stage.
But there's a lot more to the SpaceLiner than flying passengers faster across continents.
By designing a fully reusable space system for regular passenger traffic, SART researchers hope that their work will make space travel more cost-effective.
If their space hardware went into serial production, costs might be brought down and space travel would be more accessible to more people.
Don't pack your suitcase just yet, but affordable space tourism could be that little bit closer to reality.