Why It Matters: Recurring doubts about blockbuster physics claims.
A superconductor is a material that effortlessly carries electrical current. If such a substance works at everyday temperatures, it could find use in power transmission lines, magnetic resonance imaging machines and almost any device that uses electricity. Current superconductors have to be cooled to temperatures that limit their usefulness.
In the past few weeks, euphoria over LK-99, a different material that scientists in South Korea say is a room-temperature superconductor, swept over social media, although much of that excitement has since calmed after other scientists were unable to confirm the superconductivity observations and came up with plausible alternative explanations.
However, the fundamental laws of physics do not prohibit the possibility of a room-temperature superconductor, and the search for such materials will continue.
Background: Another unverified room-temperature superconductor.
In March in a paper published in the journal Nature, Dr. Dias and his collaborators said they had discovered a material that superconducted at temperatures up to 70 degrees Fahrenheit, although it required squeezing to a pressure of 145,000 pounds per square inch.
Many other scientists greeted the announcement with skepticism because an earlier Nature paper by Dr. Dias describing a different and less practical superconducting material had already been retracted.
Questions had also been raised about the now-retracted Physical Review Letters paper. James Hamlin, a professor of physics at the University of Florida, told the journal’s editors that the curves in one of the paper’s figures describing electrical resistance in the chemical compound manganese sulfide looked similar to ones in Dr. Dias’s doctoral thesis that described the behavior of a different material.
The journal recruited outside experts who produced three independent reports to review the figure and the underlying data. “The findings back up the allegations of data fabrication/falsification convincingly,” the journal’s editors wrote in an email to the authors of the paper on July 10.
The latest response from Dr. Dias is “both inadequate and disappointing,” said one of the reviewers, who asked to remain anonymous because the reviewers have not been publicly identified.
The reviewer said that in the months of back and forth between the authors of the paper, Dr. Hamlin and the editors of Physical Review Letters that had been shared with the reviewers, there was no mention of Adobe Illustrator or what Dr. Dias said was a better graph that was generated by his lab in December 2019.
Both the University of Rochester and the University of Nevada, Las Vegas should conduct open, transparent investigations into “what appears to be potential malfeasance,” the reviewer said.
Dr. Salamat and Keith V. Lawler, a research professor at UNLV and another key author of the manganese sulfide paper, did not respond to requests for comment.
What’s Next: An investigation and a response.
The University of Rochester “has a comprehensive investigation underway into the questions raised about the integrity of all data at issue in this and other studies,” a university spokeswoman said in an email.
The university had previously conducted two preliminary inquiries into Dr. Dias’s research and decided the concerns did not warrant further scrutiny. This time, the university decided to start an investigation, the next step mandated by its policy on research misconduct.
The university does not plan to make public the findings of the investigation, the spokeswoman said.
On Tuesday, Dr. Hamlin said he was pleased that the journal had taken his concerns seriously. He said there were two additional instances of apparent data duplication in Dr. Dias’s work that he hoped would also be reviewed. One involves a paper in the journal Scientific Reports; the other is what Dr. Hamlin describes as a duplication of data in Dr. Dias’s thesis.