On Saturday, the US space agency will launch the fastest object ever made on a journey to our nearest star

The solar probe will fly though the sun’s corona where temperatures reach 3m celsius and travel at speeds of up to 430,000mph

In the early hours of Saturday morning Nasa mission controllers plan to light one of the most powerful rockets in the world and send their latest spacecraft thundering off to our nearest star.

From its launch pad at Cape Canaveral in Florida, the Parker Solar Probe will blast off on a course that swings past Venus and loops around the sun before diving ever lower into the star’s brutally hot atmosphere, the corona that shines like a halo in a total solar eclipse. The US space agency aims for lift-off at 3.48am local time (8.48am BST).

In terms of sheer energetics, this is a mission like no other. To break free of Earth’s influence, the spacecraft requires 55 times more launch energy than a voyage to Mars. So it is that the Parker Solar Probe, itself no larger than a family car, is perched on a Delta IV Heavy rocket which stands 72m tall, 15m wide, and holds more than 600 tonnes of fuel.


The Parker Solar Probe will spend seven years and 24 orbits of the sun
Travelling at 450,000mph (724,000kph) it will use seven Venus gravity assist flybys and will need to withstand temperatures outside the spacecraft that reach nearly 1,400°C

The return for lighting that propellant is a spacecraft that travels faster than any human-made object in history. On its closest approach, the Nasa probe will tear around the sun at 430,000mph. At that speed it would take seven seconds to reach Penzance from John o’Groats, congestion on the M5 notwithstanding.

For an object so fundamental to life on Earth, the sun remains steeped in mystery. One such puzzle surrounds the corona itself which is 500 times hotter than the 5,500C visible surface. As Fox puts it, that is like walking away from a campfire and finding that the temperature goes up. “We know that something in that region is causing this incredible heating, but we don’t know what it is,” she said. With its suite of instruments, the Parker Solar Probe will fly through the corona in search of answers.



A further mystery is what powers the solar wind, the ionised gas that races away from the sun at more than a million miles per hour. The idea that such a wind existed was ridiculed when it was first proposed by a young physicist named Eugene Parker in the 1950s. But in time scientists came to understand how the solar wind buffeted our planet, lit up its dramatic aurorae, and generated space weather that can send satellites off course, knock out power grids, and expose astronauts to extreme levels of radiation. The mission takes the name of the 91-year-old who once played down his contribution by declaring that all he did was write a paper.

“These are questions that have puzzled scientists for decades and decades,” said Fox. “We are going to the last major region of our solar system that has yet to be explored. It is a voyage of discovery.” Armed with fresh findings from the probe, researchers hope to grasp better the vagaries of space weather, and so predict its impacts more accurately.

In the poetic language of the US space agency this is “a mission to touch the sun”, but in understanding our nearest star, scientists will learn about those cast throughout the universe. The probe is heading for the sun close to the solar minimum, the time when sunspots are rarest on the surface. Over the course of the mission, the Nasa probe will gather observations as the star ramps up its activity and sunspots spring up all over. If everything goes to plan, the spacecraft will fly through at least one vast eruption from the sun known as a coronal mass ejection, or CME.

From their distant offices on Earth, the scientists on the mission will have limited control over the spacecraft. Communications take nearly eight minutes to reach the vicinity of the sun, so the probe is pre-programmed to respond to glitches as best it can. Should it sense it is turning and heating up, the probe will fire small thrusters to keep its heat shield firmly between it and the sun.

The final Venus flyby will put the Parker Solar Probe in a stable orbit around the sun, but eventually, the spacecraft will run out of the hydrazine fuel needed to hold its shield in position. When that happens, the spacecraft will slowly turn and expose itself to the full intensity of the sun’s glare. “It will break into pieces, and they will get smaller and smaller, until she becomes part of the solar wind,” said Fox. “At least that’s the romantic story I tell myself to deal with it going.”

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