Israel Treated Gaza Like Its Own Private Death Laboratory
Erik Fosse, a Norwegian cardiologist, worked in Gaza hospitals during the recent war."It was as if they had stepped on a mine," he says of certain Palestinian patients he treated. "But there was no shrapnel in the wound. Some had lost their legs. It looked as though they had been sliced off. I have been to war zones for 30 years, but I have never seen such injuries before."
Dr. Fosse was describing the effects of a U.S. "focused lethality" weapon that minimizes explosive damage to structures while inflicting catastrophic wounds on its victims. But where did the Israelis get this weapon? And was their widespread use in the attack on Gaza a field test for a new generation of explosives?
DIMEd to Death
The specific weapon is called a Dense Inert Metal Explosive (DIME). In 2000, the U.S. Air Force teamed up with the University of California's Lawrence Livermore National Laboratory. The weapon wraps high explosives with a tungsten alloy and other metals like cobalt, nickel, or iron in a carbon fiber/epoxy container. When the bomb explodes the container evaporates, and the tungsten turns into micro-shrapnel that is extremely lethal within a 13-foot radius. Tungsten is inert, so it doesn't react chemically with the explosive. While a non-inert metal like aluminum would increase the blast, tungsten actually contains the explosion to a limited area.
Dr. Fosse was describing the effects of a U.S. "focused lethality" weapon that minimizes explosive damage to structures while inflicting catastrophic wounds on its victims. But where did the Israelis get this weapon? And was their widespread use in the attack on Gaza a field test for a new generation of explosives?
DIMEd to Death
The specific weapon is called a Dense Inert Metal Explosive (DIME). In 2000, the U.S. Air Force teamed up with the University of California's Lawrence Livermore National Laboratory. The weapon wraps high explosives with a tungsten alloy and other metals like cobalt, nickel, or iron in a carbon fiber/epoxy container. When the bomb explodes the container evaporates, and the tungsten turns into micro-shrapnel that is extremely lethal within a 13-foot radius. Tungsten is inert, so it doesn't react chemically with the explosive. While a non-inert metal like aluminum would increase the blast, tungsten actually contains the explosion to a limited area.
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