Tuesday, April 23x-press.net - Unleash the News at the Speed of Thought!

Pancake stack of radioactivity-sensitive films captures most accurate picture of star's gamma ray beam

Pancake stack of films on a balloon most accurate gamma-ray telescope
The balloon carrying the gondola with the telescope takes off from Alice Springs, Australia. Credit: GRAINE collaboration

A pancake stack of radioactivity-sensitive films carried through the sky by a balloon was able to take the world’s most accurate picture of a neutron star’s gamma ray beam. To achieve this, Kobe University researchers combined the oldest method of capturing radioactive radiation with the newest data capturing techniques and a clever time-recording device.


The stars shine their light on us in the full range of the spectrum of light, from infra-red to gamma rays. For each of these bands, different sensing equipment is needed. The most challenging one is gamma rays, famous for being a high-energy product of nuclear fission, because their very short wavelength means that they don’t interact with matter in the same way as other forms of light and thus can’t be deflected with lenses or detected by standard sensors. Thus, there is a gap in our ability to detect the light coming from fascinating stellar objects such as supernovae and their remnants.

To resolve this issue, Kobe University astrophysicist Aoki Shigeki and his team turned to the very first material that was used to detect radioactivity, photographic films.

“Our group has been focusing on the excellent capability of emulsion film to trace gamma rays with high precision and proposed that it could become an excellent gamma-ray telescope by introducing several modern data capture and analysis features,” explains Aoki.

Based on the high sensitivity of these films and a novel, automated, high-speed process of extracting data from them, the physicists’ idea was to stack up a few of them to accurately capture the trajectory of the particles that the gamma ray produces on impact, just like a single pancake may capture where you poke a straw into it, but it takes a whole stack to record the straw’s direction.

  • Pancake stack of films on a balloon most accurate gamma-ray telescope
    A single pancake may capture where you poke a straw into it, but it takes a whole stack to record the straw’s direction. Similarly, Kobe University researchers could accurately image a gamma-ray-emitting pulsar (the sky’s lighthouses) with a stack of radioactivity-sensitive films on a balloon. To be able to tell the orientation of the dangling gondola relative to the stars, they added a star camera and a device to timestamp the gamma-rays’ impacts. Credit: Kobe University
  • Pancake stack of films on a balloon most accurate gamma-ray telescope
    A section of the emulsion film after development. The traces of the particles produced by gamma ray impacts can be seen as tiny greyish dots throughout the plane. Credit: GRAINE collaboration

To reduce atmospheric interference, they then mounted the stack of films onto a scientific observation balloon to lift it to a height between 35 and 40 kilometers. However, since a balloon is swaying and twisting in the wind, the direction of the “telescope” is not stable, so they added a set of cameras to record the gondola’s orientation relative to the stars at any time. But this created another issue, because as anybody who has ever taken a photograph with long exposure knows, does not record the passage of time and so it is not directly possible to know at what time any given gamma ray impact occurred.

To overcome this problem, they made the bottom three layers of film move back and forth at regular but different speeds, just like the hands of a clock. From the relative dislocation of the traces in those lower plates they could then calculate the precise time of the impact and thus correlate it with the cameras’ footage.

They have now published the first image resulting from this setup in the journal The Astrophysical Journal. It is the most accurate image ever produced of the Vela pulsar, a fast-spinning neutron star that projects a beam of into the sky like a lighthouse at night.

“We captured a total of several trillion tracks with an accuracy of 1/10,000 millimeters. By adding time information and combining it with attitude monitoring information, we were able to determine ‘when’ and ‘where’ the events originated with such precision that the resulting resolution was more than 40 times higher than that of conventional gamma-ray telescopes,” Aoki summarizes his group’s achievements.

Pancake stack of films on a balloon most accurate gamma-ray telescope
The image of the Vela pulsar. The image has a resolution more than 40 times better than what could be achieved previously: The circle at the bottom left indicates the pulsar’s image spread for comparison with the image spread of the previously best gamma ray image (of a different stellar object), indicated by the dashed circle. Credit: GRAINE collaboration

While these results are impressive already, the new technique opens the possibility of capturing more details in this frequency band of light than ever before.

The Kobe University researcher explains, “By means of scientific balloon-borne experiments, we can attempt to contribute to many areas of astrophysics, and in particular to open up gamma-ray telescopy to ‘multi-messenger astronomy’ where simultaneous measurements of the same event captured through different techniques are required. Based on the success of the 2018 balloon experiment these data were generated with, we will expand the observation area and time in upcoming flights and are looking forward to scientific breakthroughs in the field of -ray astronomy.”

More information:
First emulsion γ-ray telescope imaging of the Vela pulsar by the GRAINE 2018 balloon-borne experiment, The Astrophysical Journal (2023). DOI: 10.3847/1538-4357/ad0973

Provided by
Kobe University


Citation:
Pancake stack of radioactivity-sensitive films captures most accurate picture of star’s gamma ray beam (2023, December 21)
retrieved 31 December 2023
from https://phys.org/news/2023-12-pancake-stack-radioactivity-sensitive-captures-accurate.html

This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no
part may be reproduced without the written permission. The content is provided for information purposes only.


source

Leave a Reply

Your email address will not be published. Required fields are marked *