https://www.imeche.org/news/news-article/solar-flare-style-rocket-thruster-could-send-astronauts-to-outer-solar-system

 
Skip to main content
Institution of Mechanical Engineers

  * Menu
  * Search

  * Log in: My account

  * Membership and Registration
      + Become a Member
      + Benefits of membership
      + Upgrade your membership
      + Professional development and CPD
      + Pay membership fees
      + Support for employers
      + Support for universities
      + Support for colleges
  * Careers and Education
      + Careers information
      + Scholarships and awards
      + Inspiring future engineers
      + STEM at home
      + Supporting ambassadors and teachers
      + Meet the Mechanical Engineer
  * Get Involved
      + COVID-19
      + IMechE at Home
      + Young Members' Network
      + Volunteering opportunities
      + Member networks near you
  * Training
      + Training topics
      + Training calendar
      + Online learning portal
      + In-house and bespoke training
      + CMI qualifications
      + Training needs diagnostic tools
      + Offers, discounts and bundles
      + News and insights
      + Frequently asked questions
  * Events
      + Upcoming events
      + Webinar Hub
      + Formula Student
      + Challenges
      + Sponsorship opportunities
      + Speaking opportunities
      + TMMX Awards
  * Industries and Specialisms
  * Library and Archive
      + Search our library and digital resources
      + Archive and artefacts
      + Members' Hub
  * News
      + All news
      + Professional Engineering app
      + Professional Engineering magazine

  * Log in: My account

  * Contact
  * About
  * Vacancies
  * Policy & Press

Search [                    ] Search

  * Homepage
  * News
  * News article

Engineering news

Solar flare-style rocket thruster 'could send astronauts to outer
solar system'

29 Jan 2021

Professional Engineering

PPPL physicist Fatima Ebrahimi in front of an artist's impression of
the fusion rocket (Credit: Elle Starkman (PPPL Office of
Communications) and ITER) PPPL physicist Fatima Ebrahimi in front of
an artist's impression of the fusion rocket (Credit: Elle Starkman
(PPPL Office of Communications) and ITER)

A new type of rocket thruster that replicates the mechanism behind
solar flares could send humans to Mars and beyond, a researcher has
claimed.

Fatima Ebrahimi, a principal research physicist at Princeton Plasma
Physics Laboratory (PPPL) in New Jersey, proposed the concept. The
thruster would apply magnetic fields to cause particles of plasma to
shoot out the back of the rocket, propelling it forward. Current
space-proven plasma thrusters use electric fields to propel the
particles.

The new concept would accelerate the particles using magnetic
reconnection - a process found throughout the universe, including the
surface of the Sun - in which magnetic field lines converge, suddenly
separate, and then join together again, generating lots of energy.
Reconnection also occurs inside doughnut-shaped tokamak fusion
devices.

"I've been cooking this concept for a while," said Ebrahimi, the
author of a paper detailing the idea in the Journal of Plasma Physics
. "I had the idea in 2017 while sitting on a deck and thinking about
the similarities between a car's exhaust and the high-velocity
exhaust particles created by PPPL's National Spherical Torus
Experiment (NSTX). During its operation, this tokamak produces
magnetic bubbles called plasmoids that move at around 20 kilometres
per second, which seemed to me a lot like thrust."

Current plasma thrusters that use electric fields to propel the
particles can only produce low specific impulse, but computer
simulations showed that the new plasma thruster concept could
generate exhaust with velocities of hundreds of kilometres per
second, 10-times faster than those of other thrusters.

That faster velocity at the beginning of a spacecraft's journey could
bring the outer planets within reach of astronauts, Ebrahimi said.

"Long-distance travel takes months or years because the specific
impulse of chemical rocket engines is very low, so the craft takes a
while to get up to speed," she said. "But if we make thrusters based
on magnetic reconnection, then we could conceivably complete
long-distance missions in a shorter period of time."

There are three main differences between Ebrahimi's thruster concept
and other devices. The first is that changing the strength of the
magnetic fields can increase or decrease the amount of thrust.
Second, the new thruster produces movement by ejecting both plasma
particles and plasmoids, adding power to the propulsion. The third
difference is that unlike electric field thruster concepts, the
magnetic fields in Ebrahimi's concept allow the plasma to consist of
either heavy or light atoms.

"While other thrusters require heavy gas, made of atoms like xenon,
in this concept you can use any type of gas you want," she said.
Scientists might prefer light gas in some cases because the smaller
atoms can get moving more quickly.

Ebrahimi stressed that her thruster concept stems directly from her
research into fusion energy. "This work was inspired by past fusion
work and this is the first time that plasmoids and reconnection have
been proposed for space propulsion," she said. "The next step is
building a prototype."

---------------------------------------------------------------------

Want the best engineering stories delivered straight to your inbox?
The Professional Engineering newsletter gives you vital updates on
the most cutting-edge engineering and exciting new job opportunities.
To sign up, click here.

Content published by Professional Engineering does not necessarily
represent the views of the Institution of Mechanical Engineers. 

Share:

Read more related articles

  * Aerospace
  * Power and Energy

Please enable JavaScript to view the comments powered by Disqus.

Professional Engineering magazine

     Current Issue: Issue 6, 2020

Issue 6 online

  * Pushing electric car batteries to the limit
  * Cooling down with novel twist fridges
  * Turning waste into jet fuel
  * ABB Motion Services adapts to cope with pandemic

View all

Professional Engineering app

[pe-app-on-]

  * Industry features and content
  * Engineering and Institution news
  * News and features exclusive to app users

Download the Professional Engineering app

Professional Engineering newsletter

A weekly round-up of the most popular and topical stories featured on
our website, so you won't miss anything

Subscribe to the Professional Engineering newsletter

Opt into your industry sector newsletter

Javascript Disabled

Please enable Javascript on your browser to view our news.

Related articles

  * 

Exclusive member offers

Services for home and work

Heritage awards

Recognising engineering excellence

Support Network

Financial help and personal support

Improving the world through engineering

  * About us
  * Contact us

Follow us

  * Facebook
  * Twitter
  * YouTube
  * Instagram
  * LinkedIn

Also available:

Venue and room hire

Flexible spaces at our head office in Westminster, London

IMechE Argyll Ruane

Helping NDT professionals obtain, renew or upgrade their
qualifications

Sonaspection

Internationally recognised manufacturer of flawed specimens in the
NDT and NDE industries

(c) 2021 Institution of Mechanical Engineers. IMechE is a registered
charity in England and Wales number 206882

  * Sitemap
  * Privacy policy