Weapons
XM25 In Theater Use Update
BigPeace reports this:
All five prototypes were sent to Afghanistan in November. Officials are putting the final touches on data and analysis, but said Col. Douglas Tamilio, project manager for soldier weapons, said the weapons “performed flawlessly” and no maintenance issues showed.
Soldiers have been so pleased with the XM25 that they are carrying it as a primary weapon, and not bothering to bring an M4 as a secondary weapon, said Maj. Christopher Conley, who monitored the employment of XM25 on behalf of PEO Soldier.
FireArm Blog has this “after action report”:
Army.mil reports …
“The XM25 brought the difference to whether they would stay there 15 to 20 minutes shooting (and) taking pot shots or the actual fight ended after using the XM25,” said Sgt. 1st Class Carlos Smith, Soldier Requirements Division, Maneuver Center of Excellence, Fort Benning, Ga. “That was due to the defilade capabilities of the XM25 to shoot beyond targets and behind targets.”
The XM25 allows Soldiers to engage defilade targets — those behind a barrier, protected from oncoming weapons fire. The XM25 measures the distance to the enemy’s protective barrier, and can then program the round to detonate a user-adjustable distance past that — allowing Soldiers to put an air-bursting round directly above the enemy’s head, inside their protected area.
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Since then, hundreds of XM25 rounds have been fired in theater, though only 55 of those rounds were fired as part of combat, on nine different operational missions.
“We disrupted two insurgents on an OP (observation point) and we silenced two machine-gun positions — two PKM positions,” Conley said, describing some of the scenarios he witnessed in theater where the XM25 had been used. “We destroyed four ambush locations, where the survivors fled.”
I had to look up the word “defilade”. A defilade target means a target using a protective barrier or terrain to protect themselves from fire.
Israel Patents Next Gen Sniper Scopes
FireArm Blog Story:
…The patent describes a LIDAR (Laser Identification Detection And Ranging) unit which works by firing a laser beam at the target. The reflection of the laser is captured by an array of photodiodes. Fluctuations in the signals received by the photodiodes are used to detect both the direction and velocity of cross wind…
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(Burris Eliminator LaserScope. Automatically calculates elevation holdover)
Wired Magazine has some more insight on this amazing product:
Earlier this month, a British Army sniper Corporal Craig Harrison broke the world’s record for superaccurate shooting, taking out a pair of Taliban machine gunners from a mile-and-a-half away. It was a one-in-a-million feat — one performed under “perfect” conditions, Harrison says: “no wind, mild weather, clear visibility.”
Darpa, the Pentagon’s way-out research arm, is hoping to use lasers and advanced optical systems to make other snipers Harrison-accurate, even when the winds are howling. The agency is looking for 15 ultraprecise sniper scopes to put in shooters’ hands by next year.
The “One Shot” program originally aimed to give snipers the power to hit a target from 2000 meters away in winds as high as 40 miles per hour. In the first phases of the 3-year-old program, shooters used prototype rifles dressed with lasers and fancy computer hardware to do damage from 1,100 meters away in 18-mile-an-hour winds. The scope-mounted lasers can “see” wind turbulence in the path of the bullet and feed the data to computers, enabling real-time calculation of — and compensation for — the wind-blown trajectory.
The program is just one of several high-tech hardware upgrades the U.S. military is pursuing for its snipers. Plans are also in place to make bullets that can change course in mid-air and a stealth sniper scope that would make shooters all but invisible.
With initial demonstrations complete, the next step for One Shot is to make 15 “field-testable prototype, observation, measurement, and ballistic calculation system[s], which enable [s]nipers to hit targets with the first round, under crosswind conditions, up to the maximum effective range,” Darpa says in its program announcement. Total cost: $7 million….
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