Astronomers have resolved the decade-long mystery of a cosmic object's rapid energy-state shifts, attributing them to plasma cannonball launches from its orbit. This object, a pulsar, is a highly magnetic neutron star, known for emitting beams of radiation from its poles, causing a pulsing effect in space.
Pulsar J1023 Shifts Between High and Low Mode
In the Sextans constellation, pulsar PSR J1023+0038, has astounded scientists by pilfering material from its companion star and launching it into space like cosmic cannonballs.
While pulsars are typically dense, magnetized remnants of deceased stars that emit steady electromagnetic pulses, this particular one distinguishes itself with its distinctive brightness fluctuations, transitioning between two modes.
Pulsar J1023 exhibits a unique behavior, cycling between "high" and "low" modes where it emits bright X-rays, UV, and visible light in one state and dim radio waves in the other, with each mode lasting several seconds to minutes and the transitions taking only a few seconds.
Researchers observed this mode switching 280 times over two nights in June 2021. They propose that the pulsar's strange behavior is driven by the ejection of accreted material, resulting from the interaction between the pulsar wind, composed of high-energy particles, and the inflowing matter.
They first noticed this unusual behavior in 2013. Astronomers, who, after a decade of study, believe they have finally unraveled the mystery behind its peculiar actions.
READ ALSO: Finding Extraterrestrial Life? Look for Binary Star Systems, Study Suggests
Cosmic Cannonballs Explain Changes in the Pulsar's Brightness
For the past decade, J1023 has intrigued researchers; it forms part of a binary star system positioned approximately 4,500 light-years away, maintaining a close orbital relationship with its partner star. Initially observed in 2009, it displayed conventional pulsar characteristics, emitting regular flashes at a consistent electromagnetic frequency.
As outlined in a recent study, titled "Matter ejections behind the highs and lows of the transitional millisecond pulsar PSR J1023+0038" published in the Astronomy & Astrophysics journal, an international group of scientists determined that the star expelled accumulated material taken from its partner star.
J1023's close orbit causes intense gravitational forces, stripping plasma from its companion star, forming a superheated disk, and launching cosmic cannonballs in a rapid mode switch. This phenomenon was identified through the observation of millisecond radio waves using a dozen telescopes and scientific instruments.
Maria Cristina Baglio, the primary investigator of the study and a researcher at New York University Abu Dhabi, described these events as remarkable cosmic occurrences, where substantial amounts of matter, akin to cosmic projectiles, are ejected into space within brief periods of tens of seconds, originating from a compact, rapidly rotating object.
Despite these findings, many questions about J1023's uniqueness and the underlying mechanisms of its behavior remain unanswered. The construction of the European Southern Observatory's Extremely Large Telescope in Chile offers hope for gaining further insights into this enigmatic phenomenon.
Researchers anticipate that the telescope will provide valuable information about how the mode switching affects the inflowing matter's abundance, distribution, dynamics, and energetics around the pulsar.
RELATED ARTICLE: Ultra-Rare Binary Star System That Could Trigger Kilonova Detected 11,400 Light-years From Earth
Check out more news and information on Space in Science Times.