"Prior work has suggested that energy is involved when quarks fuse together. In studying the properties of one such fusing, a doubly-charmed baryon, the researchers found that it took 130 MeV to force the quarks into such a particular configuration, but they also found that fusing the quarks together wound up releasing 12 MeV more than that. Intrigued by their finding, they quickly focused on bottom quarks, which are much heavier—calculations showed it took 230 MeV to fuse such quarks, but doing so resulted in a net release of approximately 138 MeV, which the team calculated was approximately eight times more than the amount released during hydrogen fusion.
Since hydrogen fusion lies at the heart of hydrogen bombs, the researchers were quite naturally alarmed at their findings. So much so that they considered not publishing their results. But subsequent calculations showed that it would be impossible to cause a chain reaction with quarks because they exist for too short a period of time—approximately one picosecond—not long enough to set off another baryon. They decay into much smaller, less dangerous lighter quarks."
Isn't it bad science to suppress findings? Where does one draw the line?
Suppression of results introduces subjectivity and allows for injection of agenda into what should be an objective practice. Not to mention, someone else will likely make the discovery eventually; would you rather suppress your findings and allow say, North Korea to be the first to develop a dangerous technology without any study into countermeasures?
Add this kind of bad practice to the other contemporary problems in research (replicability crisis, p value misuse, etc) and it feels like the modern scientific establishment is regressing.
There are ideals and then are practicalities. Imagine a universe where it was discovered by theoretical modeling that speaking a certain word out loud would cause the earth to explode.
Obviously scientists would want to know why or how such a weird phenomenon could exist under natural law, share and study it more. Practically speaking though, publishing it would be the end of life on earht, because one nincompoop of the X billion nincompoops in the world will go ahead and try it.
"Prior work has suggested that energy is involved when quarks fuse together. In studying the properties of one such fusing, a doubly-charmed baryon, the researchers found that it took 130 MeV to force the quarks into such a particular configuration, but they also found that fusing the quarks together wound up releasing 12 MeV more than that. Intrigued by their finding, they quickly focused on bottom quarks, which are much heavier—calculations showed it took 230 MeV to fuse such quarks, but doing so resulted in a net release of approximately 138 MeV, which the team calculated was approximately eight times more than the amount released during hydrogen fusion.
Since hydrogen fusion lies at the heart of hydrogen bombs, the researchers were quite naturally alarmed at their findings. So much so that they considered not publishing their results. But subsequent calculations showed that it would be impossible to cause a chain reaction with quarks because they exist for too short a period of time—approximately one picosecond—not long enough to set off another baryon. They decay into much smaller, less dangerous lighter quarks."