Professor Kamuro's near-future science predictions:
Directed-energy Weapons time has Come
Quantum Physicist and Brain Scientist
Visiting Professor of Quantum Physics,
California Institute of Technology
IEEE-USA Fellow
American Physical Society-USA Fellow
PhD. & Dr. Kazuto Kamuro
AERI:Artificial Evolution Research Institute
Pasadena, California
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Directed energy weapon is a core and revolutionary breakthrough technology whose time has come. The U.S. Army confirmed in June that it is accelerating efforts to field a directed-energy weapon prototype by 2022. First up is the Multi-Mission High Energy Laser, a 50-kilowatt retrofit to a modified Stryker vehicle, which is expected to be operational in 2023.
On a larger scale, the U.S. Military also is working with other services, agencies and industry partners to advance the science behind directed-energy technology by developing more powerful solid-state laser and high-powered microwave weapons with energy levels of 100 kW and beyond. Other directed energy initiatives are being pursued worldwide.
The advantages of these kinds of weapons are obvious. Directed-energy weapons offer speed-of-light engagement for national defense, homeland security and law enforcement. They can be used in either a nonlethal or lethal mode. They have both long- and short-range capabilities and they offer the flexibility, power and unlimited magazines to counter threats ranging from ballistic and cruise missiles, to unmanned aerial systems and small boats.
In this session, prof. Kamuro will give a lecture on directed-energy weapon by Department of Defense’s Science and Technology expert scientists in Directed Energy and Non-Lethal Weapons technologies in AERI (Artificial Evolution Research Institute HP:https://www.aeri-japan.com/).
Directed Energy is an umbrella term covering technologies that relate to the production of a beam of concentrated electromagnetic energy or atomic or subatomic particles. Examples include: high-efficiency laser sources and high-power RF systems, including pulsed power sources, micro-/millimeter wave sources, and antennas. Directed energy weapons use directed energy to incapacitate, damage, or destroy enemy equipment, facilities, and/or personnel.
Today, Directed Energy weapons are being developed by the US and its adversaries for land, sea, and air and space applications. On land, this includes base defense, where DE can provide a deep magazine, long-range engagement, and low cost-per-shot against proliferated threats. Other land-based applications include clandestine target engagement using the ability of high-power microwaves to penetrate structures, invisible to the naked-eye, and damage or interrupt electronics without harming humans. On the sea, in the air, and in space DE weapons can provide platform self-defense. In a world of expanding, potential, DE military capabilities, a determination of scenarios that bound potential futures is a key input to creation of a national strategy that will shape the future to the advantage of the US and prevent our rivals and adversaries from obtaining them.
As defined by directed-energy weapon (DEW) is any weapon, device or electronic that uses any kind of energy to disable, harass, assault, incapacitate another human being, an enemy’s weapons, their equipment, hideouts, etc. For ex. Directional sound.
A directed–energy weapon (DEW) is a ranged weapon that damages its target with highly focused energy, including laser, microwaves and particle beams. Potential applications of this technology include weapons that target personnel, missiles, vehicles, and optical devices.
They are also defined as electromagnetic systems capable of converting chemical or electrical energy to radiated energy and focusing it on a target, resulting in physical damage that degrades, neutralizes, defeats, or destroys an adversarial capability.
A directed-energy weapon (DEW) is a ranged weapon that damages its target with highly focused energy without a solid projectile, including lasers, microwaves, particle beams, and sound beams. Potential applications of this technology include weapons that target personnel, missiles, vehicles, and optical devices. In the United States, the Pentagon, DARPA, the Air Force Research Laboratory, United States Army Armament Research Development and Engineering Center, and the Naval Research Laboratory are researching directed-energy weapons to counter ballistic missiles, hypersonic cruise missiles, and hypersonic glide vehicles. These systems of missile defense are expected to come online no sooner than the mid to late-2020s.
China, France, Germany, the United Kingdom, Russia, India, and Pakistan are also developing military-grade directed-energy weapons, while Iran and Turkey claim to have them in active service. The first use of directed-energy weapons in combat between military forces was claimed to have occurred in Libya in August 2019 by Turkey, which claimed to use the ALKA directed-energy weapon. After decades of research and development, most directed-energy weapons are still at the experimental stage and it remains to be seen if or when they will be deployed as practical, high-performance military weapons.
I. Operational advantages
Directed energy weapons could have several main advantages over conventional weaponry:
·Directed-energy weapons can be used discreetly; radiation does not generate sound and is invisible if outside the visible spectrum.
·Light is, for practical purposes, unaffected by gravity, windage and Coriolis force, giving it an almost perfectly flat trajectory. This makes aim much more precise and extends the range to line-of-sight, limited only by beam diffraction and spread (which dilute the power and weaken the effect), and absorption or scattering by intervening atmospheric contents.
·Lasers travel at light-speed and have long range, making them suitable for use in space warfare.
·Laser weapons potentially eliminate many logistical problems in terms of ammunition supply, as long as there is enough energy to power them.
·Depending on several operational factors, directed-energy weapons may be cheaper to operate than conventional weapons in certain contexts.
II. Weapon Types
Part A. Microwave
Some devices are described as microwave weapons; the microwave range is commonly defined as being between 300 MHz and 300 GHz (wavelengths of 1 meter to 1 millimeter), which is within the radio frequency (RF) range. Some examples of weapons which have been publicized by the military are as follows:
a. Active Denial System
Active Denial System is a millimeter wave source that heats the water in a human target's skin and thus causes incapacitating pain. It was developed by the U.S. Air Force Research Laboratory and Raytheon for riot-control duty. Though intended to cause severe pain while leaving no lasting damage, concern has been voiced as to whether the system could cause irreversible damage to the eyes. There has yet to be testing for long-term side effects of exposure to the microwave beam. It can also destroy unshielded electronics. The device comes in various sizes, including attached to a Humvee.
b. Vigilant Eagle
Vigilant Eagle is a ground-based airport defense system that directs high-frequency microwaves towards any projectile that is fired at an aircraft. It was announced by Raytheon in 2005, and the effectiveness of its waveforms was reported to have been demonstrated in field tests to be highly effective in defeating MANPADS missiles.
The system consists of a missile-detecting and tracking subsystem (MDT), a command and control system, and a scanning array. The MDT is a fixed grid of passive infrared (IR) cameras. The command and control system determines the missile launch point. The scanning array projects microwaves that disrupt the surface-to-air missile's guidance system, deflecting it from the aircraft. Vigilant Eagle was not mentioned on Raytheon's Web site in 2022.
c. Borers HPM Blackout
Borers HPM Blackout is a high-powered microwave weapon that is said to be able to destroy at short distance a wide variety of commercial off-the-shelf (COTS) electronic equipment and is purportedly non-lethal.
d. EL/M-2080 Green Pine|EL/M-2080 Green P
The effective radiated power (ERP) of the EL/M-2080 Green Pine radar makes it a hypothetical candidate for conversion into a directed-energy weapon, by focusing pulses of radar energy on target missiles. The energy spikes are tailored to enter missiles through antennas or sensor apertures where they can fool guidance systems, scramble computer memories or even burn out sensitive electronic components.
e. Active electronically scanned array
AESA radars mounted on fighter aircraft have been slated as directed energy weapons against missiles, however, a senior US Air Force officer noted: "they aren't particularly suited to create weapons effects on missiles because of limited antenna size, power and field of view". Potentially lethal effects are produced only inside 100 meters range, and disruptive effects at distances on the order of one kilometer. Moreover, cheap countermeasures can be applied to existing missiles.
f. Anti-drone rifle
A weapon often described as an "anti-drone rifle" or "anti-drone gun" is a battery-powered electromagnetic pulse weapon held to an operator's shoulder, pointed at a flying target in a way similar to a rifle, and operated. While not a rifle or gun, it is so nicknamed as it is handled in the same way as a personal rifle. The device emits separate electromagnetic pulses to suppress navigation and transmission channels used to operate an aerial drone, terminating the drone's contact with its operator; the out-of-control drone then crashes.
The Russian Stupor is reported to have a range of two kilometers, covering a 20-degree sector; it also suppresses the drone's cameras. Stupor is reported to have been used by Russian forces during the Russian military intervention in the Syrian civil war.
Both Russia and Ukraine are reported to use these devices during the 2022 Russian invasion of Ukraine. The Ukrainian army are reported to use the Ukrainian KVS G-6, with a 3.5 km range and able to operate continuously for 30 minutes. The manufacturer states that the weapon can disrupt remote control, the transmission of video at 2.4 and 5 GHz, and GPS and Glonass satellite navigation signals.
Due to the threat posed by drones in regard to terrorism, several police forces have carried anti-drone guns as part of their equipment. For example, during the policing of the Commonwealth Games in 2018, the Australian Queensland Police Service carried anti-drone guns with an effective range of 2 miles. In Myanmar, police have been equipped with anti-drone guns 'ostensibly to defend VIPs.
g. Counter-electronics High Power Microwave Advanced Missile Project
The Counter-electronics High Power Microwave Advanced Missile Project (CHAMP) is a joint concept technology demonstration led by the Air Force Research Laboratory, Directed Energy Directorate at Kirtland Air Force Base to develop an air-launched directed-energy weapon capable of incapacitating or damaging electronic systems by means of an EMP (electromagnetic pulse).
On October 22, 2012, Boeing announced a successful test of the missile. CHAMP disabled seven different targets before self-destructing over empty desert.
The U.S. Air Force expected to have technology for a steerable counter-electronics weapon “available” in 2016, when a multi-shot, multi-target, high-power microwave (HPM) package would be tested aboard an AGM-86 ALCM. By the mid-2020s, HPM weapons are expected to be integrated onto a "JASSM-ER-type weapon," and on small reusable platforms like the F-35 Lightning II and unmanned aerial vehicles. HPM weapons may be desired in situations where one target building needs to be engaged and shut down, while not affecting the buildings around it. Other potential improvements could include increasing autonomy and putting it on hypersonic missiles.
The CHAMP is superior to other electronic warfare weapons because it destroys electronics, rather than jamming which temporarily affects systems that come back online when it stops being applied. Congress has suggested re-purposing excess cruise missiles demilitarized under the Intermediate-Range Nuclear Forces Treaty to turn them into CHAMP weapons without violating it. On 14 May 2015, the Air Force nominated the Lockheed Martin JASSM-ER as the optimal air vehicle to carry the CHAMP payload. CHAMP is capable of up to 100 shots per sortie.
In May 2019, it was revealed the Air Force had deployed at least 20 CHAMP-equipped missiles.
h. THOR/Mjolnir
THOR (Tactical High-powered Operational Responder) is a US-developed short-range directed energy weapon (DEW) demonstrator targeted at disabling drone swarms.
THOR is one of a series of directed energy countermeasures targeting small, cheap drones. A related DEW technology is lasers that can burn through a drone's hull and circuitry, but a laser must focus on an individual target in order to disable it.
Part B. Laser
1. Overview
A laser weapon is a directed-energy weapon based on lasers. Laser weapon is a type of directed-energy weapon that uses lasers to inflict damage. Despite decades of research and development, as of January 2020, directed-energy weapons, including lasers, remain at the experimental stage. Whether they will be deployed as practical, high-performance military weapons remains to be seen. One of the major issues with laser weapons is atmospheric thermal blooming, which is still largely unsolved. This issue is exacerbated when there is fog, smoke, dust, rain, snow, smog, foam, or purposely dispersed obscurant chemicals present. In essence, a laser generates a beam of light that requires clear air or a vacuum to operate.
Several types of laser have been identified as having the potential to be used as incapacitating non-lethal weapons. They can cause temporary or permanent vision loss when directed at the eyes. The extent, nature, and duration of visual impairment resulting from exposure to laser light depend on various factors, such as the laser's power, wavelength(s), collimation of the beam, orientation of the beam, and duration of exposure. Even lasers with a power output of less than one watt can cause immediate and permanent vision loss under certain conditions, making them potential non-lethal but incapacitating weapons. However, the use of such lasers is morally controversial due to the extreme handicap that laser-induced blindness represents. The Protocol on Blinding Laser Weapons bans the use of weapons designed to cause permanent blindness.
Weapons designed to cause temporary blindness, known as dazzlers, are used by military and sometimes law enforcement organizations. Incidents of pilots being exposed to lasers while flying have prompted aviation authorities to implement special procedures to deal with such hazards. Laser weapons capable of directly damaging or destroying a target in combat are still in the experimental stage. The general idea of laser-beam weaponry is to hit a target with a train of brief pulses of light. The power needed to project a high-powered laser beam of this kind is beyond the limit of current mobile power technology, thus favoring chemically powered gas dynamic lasers. Example experimental systems included MIRACL and the Tactical High Energy Laser, which are now discontinued. The United States Navy has tested the very short-range (1 mile), 30-kW Laser Weapon System or LaWS to be used against targets like small UAVs, rocket-propelled grenades, and visible motorboat or helicopter engines. It has been defined as "six welding lasers strapped together." A 60 kW system, HELIOS, is being developed for destroyer-class ships as of 2020.
2. Laser-based missile and air defense systems
(1) Overview
Laser-based directed-energy weapons have been under development for defense purposes, particularly for the destruction of incoming missiles. One such example is the Boeing Airborne Laser, constructed inside a Boeing 747 and designated as the YAL-1. This system was designed to eliminate short- and intermediate-range ballistic missiles during their boost phase.
Another laser-based defense system was researched for the Strategic Defense Initiative (SDI, nicknamed "Star Wars") and its successor programs. This project aimed to employ ground-based or space-based laser systems to destroy incoming intercontinental ballistic missiles (ICBMs). However, various practical challenges, such as directing a laser over a large distance through the atmosphere, complicated the implementation of these systems. Optical scattering and refraction would bend and distort the laser beam, making it difficult to aim and reducing its efficiency.
A related concept from the SDI project was the nuclear-pumped X-ray laser, an orbiting atomic bomb surrounded by laser media in the form of glass rods. When the bomb detonated, the rods would be exposed to highly-energetic gamma-ray photons, causing spontaneous and stimulated emission of X-ray photons within the rod atoms. This process would result in optical amplification of the X-ray photons, generating an X-ray laser beam that would be minimally affected by atmospheric distortion and capable of destroying ICBMs in flight. However, the X-ray laser would be a single-use device, as it would destroy itself upon activation. Some initial tests of this concept were conducted with underground nuclear testing, but the results were not promising. Research into this approach to missile defense was discontinued after the SDI program was canceled.
(2) Iron beam
Iron Beam is a laser-based air defense system which was unveiled at the Singapore Airshow on February 11, 2014 by Israeli defense contractor Rafael Advanced Defense Systems. The system is designed to destroy short-range rockets, artillery, and mortar bombs; it has a range of up to 7 km (4.3 mi), too close for the Iron Dome system to intercept projectiles effectively. In addition, the system could also intercept unmanned aerial vehicles (UAVs). Iron Beam will constitute the sixth element of Israel's integrated air defense system, in addition to Arrow 2, Arrow 3, David's Sling, Barak 8, and Iron Dome.
Iron Beam uses a fiber laser to destroy an airborne target. Whether acting as a stand-alone system or with external cueing as part of an air-defense system, a threat is detected by a surveillance system and tracked by vehicle platforms in order to engage.
(3) Anti-drone systems
In the 21st century, several countries have developed anti-drone laser systems to counter the increasing threat of small unmanned aerial vehicles (UAVs). These systems are designed to detect, track, and destroy drones using high-powered lasers, offering a cost-effective and flexible solution for airspace protection.
In the United States, Lockheed Martin demonstrated the capabilities of its ATHENA laser system in 2017, which uses a 30-kilowatt ALADIN laser to target and destroy UAVs. Another American company, Raytheon, developed the High-Energy Laser Weapon System (HELWS) in 2019, which is capable of detecting and destroying drones at a distance of up to three kilometers.
Turkey has also invested in the development of laser weapons, with companies like Roketsan producing the Alka system, which combines laser and electromagnetic weapons to incapacitate and destroy single or group targets. Other Turkish companies, such as Aselsan and TUBITAK BILGEM, have also demonstrated laser systems capable of targeting small UAVs and explosive devices.
Germany is another leader in the development of combat laser systems, with defense company Rheinmetall working on stationary and mobile versions of its High Energy Laser (HEL) system since the 2000s. Rheinmetall's lasers are designed to protect against a variety of threats, including small and medium-sized UAVs, helicopters, missiles, mines, and artillery shells.
Israel has also been actively developing laser weapons, with companies like Rafael Advanced Defense Systems demonstrating the compact Drone Dome system in 2020, which is designed to destroy UAVs and their swarms. Another Israeli system, called Light Blade, was developed by OptiDefense to counter terrorist threats such as mini UAVs and explosive devices attached to balloons or kites.
The development and deployment of these anti-drone laser systems show the increasing importance of protecting airspace from emerging threats, while also providing a cost-effective and flexible solution for defense forces around the world.
3. Electrolaser
a. Overview
An electrolaser is a type of electroshock weapon that is also a directed-energy weapon. It uses lasers to form an electrically conductive laser-induced plasma channel (LIPC). A fraction of a second later, a powerful electric current is sent down this plasma channel and delivered to the target, thus functioning overall as a large-scale, high energy, long-distance version of the Taserelectroshock gun.
Alternating current is sent through a series of step-up transformers, increasing the voltage and decreasing the current. The final voltage may be between 10^8 and 10^9 volts. This current is fed into the plasma channel created by the laser beam.
b. Laser-induced plasma channel
A laser-induced plasma channel (LIPC) is formed by the following process:
• A laser emits a laser beam into the air.
• The laser beam rapidly heats and ionizes surrounding gases to form plasma.
• The plasma forms an electrically conductive plasma channel.
Because a laser-induced plasma channel relies on ionization, gas must exist between the electrolaser weapon and its target. If a laser-beam is intense enough, its electromagnetic field is strong enough to rip electrons off of air molecules, or whatever gas happens to be in between, creating plasma. Similar to lightning, the rapid heating also creates a sonic boom.
c. Methods of use:
• To kill or incapacitate a living target through electric shock.
• To seriously damage, disable, or destroy any electric or electronic devices in the target.
• As electrolasers and natural lightning both use plasma channels to conduct electric current, an electrolaser can set up a light-induced plasma channel for uses such as:
• To study lightning
• During a thunderstorm, to make lightning discharge at a safe time and place, as with a lightning conductor.
• Directing atmospheric lightning to a terrestrial collection station for the purpose of electrical power generation.
• As a weapon, to make a thunderhead deliver a precise lightning strike onto a target from an aircraft; in this case, the aircraft and laser can be compared to a triggered spark gap, in that the relatively minor amount of initial input from the laser allows a large amount of energy to flow between the cloud and the ground.
Because of the plasma channel, an electrolaser may cause an accident if there is a thunderstorm (or other electricity sources such as overhead power-lines) about.
An electrolaser is not presently practical for wireless energy transfer due to danger and low efficiency.
d. Examples of electrolasers
(a) Applied Energetics
Applied Energetics (formerly Ionatron) develops directed-energy weapons for the United States military. The company has produced a device called the Joint IED Neutralizer (JIN), which was intended for safely detonating improvised explosive devices(IEDs). The device was deemed unsuitable for field use in 2006, however, the company has been developing versions of the weapon that can be mounted on land, air, and sea vehicles, as well as a hand-held infantry version.
Applied Energetics said that the weapons will be able to be used as a non-lethal alternative to current weaponry, but will be able to deliver a high enough voltage jolt to kill.
Applied Energetics say that they are working on an electrolaser system, called LGE (Laser Guided Energy). They are also studying a laser-induced plasma channel (LIPC) as a way to stop people from going through a corridor or passageway.
(b) Phoenix
There was an unconfirmed report that in 1985 the U.S. Navy tested an electrolaser. Its targets were missiles and aircraft. This device was known as the Phoenix project within the Strategic Defense Initiative research program. It was first proved by experiment at long range in 1985, but this report may have referred to an early test of MIRACL, which is or was a high-powered chemical laser.
(c) HSV Technologies
HSV Technologies, Inc. (Stood for the last names of the original founders, Herr, Schlesinger and Vernon; this is NOT the same company as Holden Special Vehicles), formerly of San Diego, California, US, then Port Orchard, Washington, designed a non-lethal device which was profiled in the 2002 Time magazine article "Beyond the Rubber Bullet". It is an electrolaser using ultraviolet laser beams of 193 nm, and promises to immobilize living targets at a distance without contact. There were plans for an engine-disabling variation for use against the electronic ignitions of cars using a 248 nm laser. The lead inventor, Eric Herr, died in 2008 and the company appears to have been dissolved, as their website now hosts an unrelated business (as of September 2015).
(d) Picatinny Arsenal
Scientists and engineers from Picatinny Arsenal have demonstrated that an electric discharge can go through a laser beam. The laser beam is self-focusing due to the high laser intensity of 50 gigawatts, which changes the speed of light in air. The laser was reportedly successfully tested in January 2012.
Part C. Particle-beam
Particle-beam weapons can use charged or neutral particles, and can be either endoatmospheric or exoatmospheric. Particle beams as beam weapons are theoretically possible, but practical weapons have not been demonstrated yet. Certain types of particle beams have the advantage of being self-focusing in the atmosphere.
Blooming is also a problem in particle-beam weapons. Energy that would otherwise be focused on the target spreads out and the beam becomes less effective:
· Thermal blooming occurs in both charged and neutral particle beams, and occurs when particles bump into one another under the effects of thermal vibration, or bump into air molecules.
· Electrical blooming occurs only in charged particle beams, as ions of like charge repel one another.
Part D. Plasma
Plasma weapons fire a beam, bolt, or stream of plasma, which is an excited state of matter consisting of atomic electrons & nuclei and free electrons if ionized, or other particles if pinched.
The MARAUDER (Magnetically Accelerated Ring to Achieve Ultra-high Directed-Energy and Radiation) used the Shiva Star project (a high energy capacitor bank which provided the means to test weapons and other devices requiring brief and extremely large amounts of energy) to accelerate a toroid of plasma at a significant percentage of the speed of light.
Additionally, the Russian Federation is developing various plasma weapons.
Part E. Sonic
Long Range Acoustic Device (LRAD)
The Long Range Acoustic Device(LRAD) is an acoustic hailing device developed by Genasys (formerly LRAD Corporation) to send messages and warning tones over longer distances or at higher volume than normal loudspeakers, and as a non-lethal directed-acoustic-energy weapon. LRAD systems are used for long-range communications in a variety of applications and as a means of non-lethal, non-projectile crowd control. They are also used on ships as an anti-piracy measure.
According to the manufacturer's specifications, the systems weigh from 15 to 320 pounds (6.8 to 145.1 kg) and can emit sound in a 30°- 60° beam at 2.5 kHz. They range in size from small, portable handheld units which can be strapped to a person's chest, to larger models which require a mount. The power of the sound beam which LRADs produce is sufficient to penetrate vehicles and buildings while retaining a high degree of fidelity, so that verbal messages can be conveyed clearly in some situations. Their weapons capability has been controversially used in the USA to disrupt numerous protests.
III. Non-lethal weapon capability The TECOM Technology Symposium in 1997 concluded on non-lethal weapons, "determining the target effects on personnel is the greatest challenge to the testing community", primarily because "the potential of injury and death severely limits human tests".
Also, "directed-energy weapons that target the central nervous system and cause neurophysiological disorders may violate the Certain Conventional Weapons Convention of 1980. Weapons that go beyond non-lethal intentions and cause 'superfluous injury or unnecessary suffering' may also violate the Protocol I to the Geneva Conventions of 1977."
Some common bio-effects of non-lethal electromagnetic weapons include:
·Difficulty breathing
·Disorientation
·Nausea
·Pain
·Vertigo
·Other systemic discomfort
Interference with breathing poses the most significant, potentially lethal results.
Light and repetitive visual signals can induce epileptic seizures. Vection and motion sickness can also occur.
Russia has reportedly been using blinding laser weapons during its 2022 invasion of Ukraine.
END
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Quantum Brain Chipset & Bio Processor (BioVLSI)
Prof. PhD. Dr. Kamuro
Quantum Physicist and Brain Scientist involved in Caltech & AERI Associate Professor and Brain Scientist in Artificial Evolution Research Institute( AERI: https://www.aeri-japan.com/ )
IEEE-USA Fellow
American Physical Society Fellow
PhD. & Dr. Kazuto Kamuro
email: info@aeri-japan.com
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【Keywords】 Artificial Evolution Research Institute:AERI
HP: https://www.aeri-japan.com/
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