Latest news with #Rostock
The Sun
29-06-2025
- The Sun
Exec who ‘stole £1m before going on run and faking death in Majorca where she was exposed by giant poodle' faces court
A SUSPECTED German fraudster who faked her own death and was given away by her giant pet poodle will face court on Monday. Inna Z, 51, was arrested by police in Majorca after her company doubted the claim she had been killed in a car accident and tracked her down with detectives. 3 Her giant poodle was noticed walking the streets and led investigators back to the exec. The tax adviser was accused of defrauding around £900,000 from the German solar power firm she worked for. She was summoned to court in November 2020, but her sister reported she had been killed in a car crash of March that year. It said: "We regret to announce the sad passing of our founding partner in a traffic accident." A death certificate was provided, but her company in Rostock, north Germany, smelt a rat and hired private detectives to investigate. They discovered that her social media was still active, meaning Inna was either still alive or being impersonated. They also found out she owned a giant poodle. The pooch became the object of their search, and was spotted out for a walk in Santa Ponca, Majorca. Large poodles are not a common sight on the island, so the canine stuck out. It led the team to a swanky villa in the town - and the supposedly dead Inna. Horror in Majorca as at least five bodies with hands and feet shackled are plucked from water off Brit holiday island She had cut her hair and changed its colour to drastically alter her appearance. Inna admitted to staging her demise after false documents were found in the house. Appearing in court soon after her arrest, she said: "It was clear they were going to catch me, but I wanted some time." The prosecutor's office has estimated the total amount she defrauded sits at around £5million. This week she reached a plea deal where she will avoid jail if she repays £1.5million. Her sister Anna, who wrote the email to the court, will also avoid jail. It comes as a British dad died this week on the island when he fell off a wall onto rocks. Ben Clark, 41, died instantly when he plunged 15ft in the early hours of Friday morning. His daughter, Kaci Fraya, is believed to have been on the Spanish holiday to Cala Agulla on the island's northeast coast with her dad at the time of his death. 3
Sustainability Times
02-06-2025
- Science
- Sustainability Times
Scientists Hit Breakthrough Moment: First-Ever Liquid Carbon Created With Lasers Sparks Fusion Power Revolution
IN A NUTSHELL 🔬 Scientists have successfully created liquid carbon for the first time, marking a significant breakthrough in material science. for the first time, marking a significant breakthrough in material science. 🔥 The creation of liquid carbon, with its high melting point of 8,132°F, could revolutionize nuclear fusion reactors. reactors. ⚡ The process utilized the powerful DiPOLE 100-X laser to liquify carbon briefly, allowing researchers to capture its atomic structure. to liquify carbon briefly, allowing researchers to capture its atomic structure. 📈 This achievement resolves longstanding theoretical disagreements and opens new research possibilities in high-energy physics and materials science. In a groundbreaking achievement, scientists have successfully created liquid carbon for the first time, breaking barriers previously thought insurmountable. This remarkable feat, conducted by a team led by the University of Rostock and the Helmholtz-Zentrum Dresden-Rossendorf (HZDR), presents a new frontier in the study of materials under extreme conditions. The ability to observe the structure of liquid carbon experimentally opens up potential applications, particularly in the field of nuclear fusion, where its high melting point and unique properties may prove invaluable. Revolutionizing Nuclear Fusion The creation of liquid carbon is poised to revolutionize the future of nuclear fusion reactors. With an exceptionally high melting point of approximately 8,132°F (4,500°C), liquid carbon presents unique structural properties that make it a crucial component in fusion technology. It could be utilized both as a cooling agent and as a moderator to slow down neutrons, facilitating the chain reactions necessary for sustaining nuclear fusion. The UK's DiPOLE 100-X laser, developed by STFC's Central Laser Facility, played a pivotal role in this breakthrough, enabling research possibilities that were once unimaginable. 'The STFC's laser system has opened new research possibilities,' remarked the researchers, highlighting the potential of this discovery to transform nuclear fusion technology. The unique properties of liquid carbon could address some of the most significant challenges faced by fusion reactors today, paving the way for more efficient and sustainable energy solutions. This breakthrough not only advances our understanding of carbon but also marks a significant step towards achieving practical nuclear fusion. 'Ukraine to Restart Nuclear Power in Chernobyl': This Shocking Mini-Reactor Plan Sends Global Shockwaves Through Energy and Safety Circles Harnessing Extreme Conditions with High-Performance Lasers The process of creating liquid carbon required the use of the high-performance DiPOLE 100-X laser to generate extreme conditions. By liquifying solid carbon samples for mere billionths of a second, scientists were able to capture diffraction patterns using X-ray beams, revealing the atomic arrangement within the fleeting liquid carbon. This complex procedure was repeated multiple times, with slight variations in parameters, to construct a comprehensive picture of carbon's transition from its solid to liquid phase. Under normal conditions, carbon does not melt; instead, it transitions directly to a gaseous state. However, under extreme pressure and temperatures of approximately 8,132°F (4,500°C), it achieves a liquid state. The primary challenge was to take precise measurements within these brief moments, a feat accomplished using laser compression to create the conditions necessary for this liquid state. This innovative approach has expanded our understanding of carbon's properties under extreme conditions, offering insights that were previously unattainable. 'Even the U.S. Is Stunned': Japan's 100-Year Nuclear Battery Threatens to Blow Solar Power Off the Global Energy Map Overcoming Challenges and Paving the Way for Future Discoveries Overcoming the challenges of studying extreme states of matter like liquid carbon has been made possible at the European XFEL with the D100-X system. This system was specifically designed to study such conditions and has produced significant insights. The research team discovered that the systemics of liquid carbon resemble those of solid diamond, with four nearest neighbors, revealing new information about carbon's atomic structure. This achievement has resolved longstanding disagreements among theoretical predictions about carbon's melting point. The ability to precisely determine this point advances our understanding of carbon and its potential applications, particularly in nuclear fusion. The findings, published in the journal Nature , suggest that future results requiring extensive experiment time could be obtained in seconds once the complex automatic control and data processing systems are optimized, further accelerating advancements in this field. 'China's Nuclear Sites Could Be Attacked': These Future War Threats from the PLA Spark Global Fear and Urgency The Path Ahead: Liquid Carbon's Potential The implications of this research extend beyond immediate applications in nuclear fusion. Liquid carbon's unique properties may inspire new technologies and materials, influencing various scientific and industrial fields. As researchers continue to explore the potential of this extraordinary material, the possibilities for innovation and discovery seem boundless. The current achievements lay the groundwork for further exploration into the behavior of materials under extreme conditions, potentially leading to breakthroughs in energy, technology, and materials science. As we continue to push the boundaries of what is known, the question remains: What other revolutionary discoveries await us in the realm of high-energy physics and materials science? Our author used artificial intelligence to enhance this article. Did you like it? 4.5/5 (30)
