Tag Archives: electrical

Study Identifies Factors Behind Satellite Electrical Discharge Damage

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Based on data gathered by the sensors aboard the US Department of Defense Space Test Program Satellite 6 (STP-SAT6), we discovered a direct correlation between the frequency of electrical discharges on a spacecraft and the electron density in its environment.

STP-SAT6. Image credit: Northrop Grumman.

Spacecraft environmental discharges (SEDs) are short-lived electrical failures that may harm sensitive onboard electronics and communication systems.

While researchers have acknowledged the presence of SEDs for some time, the relationship between spatial environments and their electrons remains unclear.

“To explore this, we required two sensors on the same spacecraft: one to monitor electron quantity and activity, and another to detect radio frequency signals,” explained Dr. Amitabh Nag, a researcher at Los Alamos National Laboratory.

SEDs arise from variations in surface charging, typically due to the accumulation of electrons on the surfaces of orbiting spacecraft.

This process differs from static electricity on Earth. For instance, when someone walks across a carpet and discharges static after touching a door handle, a buildup of energy occurs. Likewise, when a spacecraft’s energy storage reaches a critical voltage, it results in an electrical discharge in space.

The STP-SAT6 is fitted with both sensors, allowing a unique opportunity for researchers to analyze both radio frequency and electronic activity simultaneously.

“We managed to assess the speed of SEDs as reported by the radio frequency sensors and compare it with the electronic particle activity within specific voltage ranges,” Dr. Nag noted.

“Our findings indicated that the peak of SEDs coincides with the peak of electronic activity.”

The authors analyzed data from two sensors over a year-long period, identifying heightened electronic activity during 270 high-speed SED occurrences and numerous episodes.

In roughly three-quarters of instances, the peak in electronic activity occurred 24-45 minutes before the SED event.

This delay implies that the buildup of charge from low-energy electrons plays a crucial role in preparing the spacecraft for electrostatic discharge.

“We noted that as electronic activity increases, the spacecraft begins to gather charges, especially in the 7.9-12.2 keV range,” Dr. Nag added.

“This process continues until a tipping point is reached, resulting in an SED.”

“Such lead time presents an opportunity for potential forecasting tools to reduce risks.”

“Future missions could include real-time monitoring of low-energy electrons to predict and react to charging events before they disrupt operations.”

The results will be published in the journal Advances in Space Research.

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Amitabag et al. 2025. Radio frequency transients correlated with electronic flux installed in STP-SAT6. Advances in Space Research 76 (6): 3692-3699; doi: 10.1016/j.asr.2025.07.026

Source: www.sci.news

Quantum Device Simultaneously Detects All Electrical Units

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A standardized unit is necessary for measuring electricity

Yuichi Rochino/Getty Images

A single quantum device can now define all three units critical for understanding electricity.

When calculating electricity, one must assess the current in amperes, resistance in ohms, and voltage in volts. Before proceeding, researchers need consensus on the measurements for each unit, which has historically required separate quantum devices and often necessitated visits to different labs.

Recently, Jason Underwood and his team at the National Institute of Standards and Technology (NIST) in Maryland have showcased how to characterize these units using a single device. “Integrating these two quantum standards has always felt like a Holy Grail,” he remarks. “It was a prolonged endeavor. Much like Sisyphus, we’ve been pushing this boulder uphill.”

This integration posed challenges as both devices depend on delicate quantum effects observable only at extremely low temperatures. Additionally, certain devices historically required magnetic fields, which could disrupt the operation of others.

The innovative “One Box” approach circumvents these issues by utilizing new materials capable of conducting quantum functions without the need for magnetic fields, allowing previously separated quantum systems to function together within the same cryostat. This method successfully measures amperes, ohms, and volts with an uncertainty of just one in millions for each unit.

However, before these combined devices can be used practically, researchers must further enhance their precision. Currently, accuracy is hampered by the heating generated when placing the two systems and their wiring too closely together. Moreover, development on the new quantum material, which facilitates the cooperation of both systems, is ongoing, according to Lindsey Rodenbach at Stanford University in California.

He views the project as a significant achievement, yet Underwood highlights that Budget constraints at NIST, funded by the US government, have impeded the team’s reach for even higher precision. He specifically mentions the agency’s “Crossing Infrastructure” report, which revealed that several NIST facilities are in disrepair. NIST has chosen not to comment on the matter.

Susmit Kumar from the Norwegian Metrology Service describes the new device as an “impressive engineering feat” that could enhance quantum electrical standards, making them more accessible and affordable for researchers and tech developers worldwide. He is part of the Quahmet Consortium, which also aims to develop user-friendly devices for measuring ohms using novel materials.

“The International System of Units is a shared language for scientists and engineers everywhere. Our goal is to simplify their use as much as possible,” says Richard Davis, a retired member of the International Bureau of Weights and Measures. He adds that integrating existing devices will foster advancement moving forward.

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Source: www.newscientist.com

Evidence of Electrical Signaling and Coordinated Behavior Uncovered in Choanoflagellates by Biologists

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Scientists of University of Bergen: The surprising diversity of behavior within the rosette-shaped colony has been revealed. Salpingoeca Rosetta is a rare species of choanoflagellates – the closest relatives of animals.

Artwork depicting calcium signaling in rosette colonies of choanoflagellates Salpingoeca Rosetta. Image credit: Davis Laundon & Kate Zvorykina, Ella MAR Studio, Inc.

“We discovered that communication takes place between the cells of the colony, which regulates the overall shape of the rosette and the beating of the ciliary body,” said Dr. Jeffrey Colgren, a researcher at the Michael Szasz Center at the University of Bergen. Ta.

“Before I put the cultures under the microscope, I didn’t really have any expectations of what I was going to see in the cultures, but once I saw them, I was really excited.”

Multicellularity is a defining feature of all animals, allowing animals to interact with their environment in unique ways by integrating input from highly specialized cell types such as neurons and muscle cells. make it possible.

In the case of choanoflagellates, flagellated bacterial organisms found in marine and aquatic environments around the world, the boundaries between unicellularity and multicellularity are less clear-cut.

including some species Salpingoeca Rosetta exhibiting a complex life cycle that includes a colonial period.

Colonies are formed by cell division, similar to the development of animal embryos, but they do not have specialized cell types and resemble groups of individual cells rather than cohesive organisms.

Salpingoeca Rosetta “This is a powerful model to study the emergence of multicellularity in animal evolution,” said Dr. Pawel Burkhardt, also from the Michael Saas Center at the University of Bergen.

“Our study provides interesting insights into early sensorimotor systems, as it reveals that colonial flagellates coordinate their movements through a common signaling pathway.”

Using a newly developed genetic tool that can visualize calcium activity Salpingoeca Rosetta The authors found that the cells synchronize their behavior through voltage-gated calcium channels, the same type of channels used by neurons and muscle cells in animals.

“This evidence of how information flows between cells in a choanoflagellate colony points to cell-to-cell signaling at the apex of multicellularity,” Dr. Colgren said.

“Surprisingly, this discovery suggests that the ability to coordinate movement at the cellular level predates the first animals.”

The research team now plans to further investigate how signals are propagated between cells and whether similar mechanisms exist in other choanoflagellate species.

“The tools developed and the results of this study reveal many new and interesting questions,” said Dr. Colgren.

“We’re really looking forward to seeing what direction ourselves and others take this in the future.”

a paper A description of the discovery was published in a magazine scientific progress.

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Jeffrey Colgren and Pawel Burkhardt. 2025. Electrical signaling and cooperative behavior in animals’ closest relatives. scientific progress 11(2);doi: 10.1126/sciadv.adr7434

Source: www.sci.news