MJOLNIR Powered Assault Armor/Mark IV

"You're the only ones who can use them, Petty Officer. Who else could we give them to?"

- Dr. Halsey

The Mark IV MJOLNIR Powered Assault Armor was the fourth version of the MJOLNIR Powered Assault Armor series. The suit was issued to SPARTAN-II commandos on November 27th, 2525, and was in service until November 24th, 2551, when it was replaced by the Mark V.

Introduction
Created parallel to the SPARTAN-II Program, the MJOLNIR powered assault armor was a radical redesign from previous large bulky exoskeletons, streamlining their design into a compact suits of armor, practical for use in the field. The brainchild of Dr. Catherine Halsey, the fourth iteration of the MJOLNIR armor represented her vision of creating a slim powered exoskeleton capable of taking full advantage of the physical capabilities of a SPARTAN-II. Planning and research for the revised MJOLNIR battlesuit began in 2511 along side the SPARTAN-II project, and over the course of 14 years its development gave birth to many new technologies that would later see major adoption throughout the military.

Completed, the MJOLNIR battlesuit is a multilayer suit constructed in overlapping layers. It is a sealed system, capable of extra-vehicular activity or operations in toxic atmosphere and vacuum. It is hardened against EMP and radiation, and has filters that are completely effective at removing toxins and bacteria from local atmosphere.

The armor's outer shell is composed of a multilayer alloy of remarkable strength which has been augmented with a refractive coating capable of dispersing a limited amount of Covenant energy weapon strikes. underneath the alloy shell is a thick black armored titanium nanocomposite bodysuit. Underneath that layer is a gel-filled layer. The gel layer regulates temperature and can re-actively change its density in a few seconds. The inner skinsuit is made of a moisture-absorbing synthetic material linked to an environmental control computer and the occupant's UNSC-issue neural interface. An upgrade to the standard neural interface is issued to all high ranking officers; another modified version of the neural lace is issued to all SPARTAN-IIs in the UNSC as well. This network translates electrochemical signals to digital code and routes them through an interface connection at the rear of the skull. Through this interface, the user's thoughts commands the armor's movement and weapons and input from the on board sensors comes directly to the user's mind. The synthesis of machine and mind is so fast that it is almost impossible to chart the reaction time. Unfortunately, the system is so reactive that normal human beings cannot use the suit without injuring or even killing themselves. Only humans who have undergone carbide ceramic ossification, a bone-strengthening treatment from the SPARTAN-II augmentation program, have been shown to safely operate the suit.

Sandwiched between the external armor and the internal padding is the most devastating weapon the suit carries: a layer of polymerized lithium niobocene, a form of reactive metal liquid crystal. Woven by molecular tools into a superdense layer, this layer is amorphous, yet it amplifies force, doubling lifting capability and increases reaction time by a factor of five. Such technology did not exist when work began on the Mark I prototypes.

Because of these advancements, the design is more akin to an actual suit of armor, as opposed to a powered exoskeleton; the user moves the suit, and in return the suit moves the user. This allows for an incredibly compact design when compared to other combat systems. The armor contains numerous features including an integrated computer system which continuously monitors weapons, biological functions, and a limited function motion sensor system. The suit also contains a built-in oxygen re-breather system that can provide air for up to ninety-minutes. The suit's helmet also features imaging and video recording, and thermal sensors among other features.

In its final phase the MJOLNIR armor weighs half a ton, or 1,000 pounds, is a fully neural-linked system and is currently the most advanced piece of tactical military hardware in human hands.

Armor and variants
Throughout the Human-Covenant War, the Mark IV saw several generational design changes and became a testing bed for new technologies and hardware to help improve the integrity of both the system and the efficiency of it in certain combat conditions. While some of these variants of the Mark IV MJOLNIR armor are rumors and have never been witnessed in the field, some have become common knowledge. By 2535, 14 variants of the Mark IV had already been developed. Although characterized by its outer appearance the true definition of each generational Mark is by its internal components and software suite. Any changes to the outer appearance is characterized in a distinctive group or variant design for a specific purpose.

MJOLNIR Powered Assault Armor/Functional prototype
The MJOLNIR prototype was built as an early sample model built to test the technologies developed for the MJOLNIR battlesuit. In February of 2525, this model was sent to NavSpecWeap for evaluation and final testing. Over the next four months the model was tested to ensure proper function and evaluate its capabilities. Physically identical to the limited production model, the prototype was built and fine-tuned for the SPARTAN-II soldier. A test was conducted to see if a normal human could operate the suit. Because of an override in the prototypes safe mode to prevent unintended use, the subject was killed by his own muscular twitch. A short time after the failed demonstration, limited-run production of the MJOLNIR battlesuit was approved.

MJOLNIR Powered Assault Armor/Limited production model
Five months after production began, the MJOLNIR PAA entered service. Although highly advanced, the suit entered service in an accelerated state due to the threat of the Covenant, as such upgrades to the suit were already in the works when it was issued to the SPARTAN-IIs. Its appearance is bulky, angular and restrictive in mobility. Due to its design philosophy being centered around a human insurrection, this model was not adequately prepared for dealing with advanced alien technology and weapons. By 2535 the suit was replaced by a generational upgrade to better combat the alien threat.

Mark IV MJOLNIR Powered Assault Armor/Final production model
Ten years after entering service, the MJOLNIR system, intended as a continuous pioneering effort to shatter technological barriers, had become the single most expensive item ever produced by the military. With each suit costing as much as a UNSC destroyer to manufacture, the budgetary commission required a simplified generational system to categorize, prioritize, and serialize neatly into fiscal year budgets. In 2535 the Mark IV designation was added to the MJOLNIR system.

With the adoption of the Mark categorization, an updated model of the suit that had entered service just four years earlier, was adopted as the standard issue suit. Its design would inform all future "Mark" generations. The upgraded Mark IV included numerous improvements not available at the beginning of the Human-Covenant War; this included a standardized vacuum survival system, standard fusion power and a new radar sensory package.

Mark IV MJOLNIR Powered Assault Armor/Advanced Hardware Program
The MJOLNIR advanced hardware program refers to the development and furthering of hardware and technologies for testing, evaluation, and incorporation into later versions of the MJOLNIR armor. The goal of the program is to produce new technologies to aid the SPARTAN-IIs in the war against the Covenant, any changes in appearance of the armor are for research and development of future MJOLNIR components.

Mark IV MJOLNIR Powered Assault Armor/EVA [V] variant
The MJOLNIR Mark IV Extra Vehicular Activity variant was developed to focus on increasing exo-atmospheric endurance and improving mobility in zero gravity. The movement could be controlled with the use of a T-PACK, or Thruster Pack, attached to the armor. This was not without dangers however; in case the T-PACK would malfunction, the wearer would be propelled into deep space where a rescue would be nearly impossible. The V variant of the MJOLNIR armor contains a reverse-angle camera on the helmet to allow for better view of anything behind the wearer. The helmet also contains a single-beam laser TEAMCOM system for communications. The only limitation of this variant is the mobility of the wearer is a fraction of normal movement. Technologies developed for the Mark IV EVA variant were later applied for the V Variant of the Mark V and Mark VI armor. However, this version was able to maneuver in vacuum without the original use of thruster packs.

Mark IV MJOLNIR Powered Assault Armor/Security [M] variant
The Mk. IV [M] was manufactured at the Misriah Armories facility on Mars in 2528.

Mark IV MJOLNIR Powered Assault Armor/EOD [E] variant
After the MJOLNIR PAA was activated in 2525, the Damascus Materials Testing Facility on Chi Ceti 4 began working on a variant of MJOLNIR armor that would improve the survivability of the user in close proximity to an explosion. The result became known as the Explosive Ordnance Disposal variant MJOLNIR armor, entering service in 2531. The EOD variant is speculated to have been developed in response to the death of Samuel-034 in November of 2525.

MJOLNIR Powered Assault Armor/CQC [C] variant
Entering service in 2548, the CQC was the predecessor to the MJOLNIR Powered Assault Armor/C variant, or "CQB". However, its design is less rigid, makes field upgrades easier. The CQC helmet is standard equipment for missions involving close-quarters combat, including boarding actions and urban operations.

Mark IV MJOLNIR Powered Assault Armor/Grenadier [G] variant
The Mk. IV [G] variant is an up-armored prototype based on the baseline Mark IV, and was the first variant to incorporate energy shielding technology into the MJOLNIR system. The [G] variant served as the basis for all subsequent supplemental armor development programs, additionally, the variant served as the test bed for incorporating energy shielding technology with the MJOLNIR program.

Inner armor components
The inner skinsuit is made of a moisture-absorbing synthetic material linked to an environmental control computer and the occupant's neural interface. It controls the suit's temperature and actively changes how the suit fits the user.
 * Inner skinsuit:

On top of the inner skinsuit is a gel-filled layer, which regulates the temperature of the suit and can change its density to conform to the wearer's shape. The temperature inside the suit is controlled by the moisture absorbing cloth suit underneath the hydrostatic layer. The hydrostatic gel layer can also be pressurized to various levels to potentially save the wearers life should the wearer be subjected to high G forces or a high velocity impact; however, over-pressurizing this layer can cause nitrogen embolisms.
 * Hydrostatic gel:

Fitted in between the outer plates and the inner padding, is a layer of liquid crystal within a piezoelectric material that deforms along a preferred axis when exposed to a electric charge. This layer acts as a sheath or a suit artificial muscle; this reactive piezoelectric effect increases the strength, reaction time, mobility, speed, and all around physical performance of the suits user. The material is amorphous, which circumvents a major obstacle in its design: custom fitting millions of the polygonal pieces under the second armor layer. Knitted together at a molecular level the liquid crystal material is merely "poured" into a multilayered Sierpinski capillary system where microelectric fields can direct crystallization geometries. The only downfall is the materials production, which involves classified super-toxic precursor materials and requires a zero-gravity environment. As such this layer accounts for over eighty percent of the MJOLNIR armors cost of construction and materials.
 * Liquid metal crystal piezoelectric layer:

The Pressure Seal is a vital component to the MJOLNIR system, it keeps the system airtight, underwater or in space. The seal is very strong but will only break under extreme pressure, such as in a high velocity impact or when the Hydrostatic Gel has been over-pressurized.
 * Pressure seal:

Sandwiched between the external armor and the internal padding is a thick black armored bodysuit. This suit has numerous functions, small but vital to the safety and survival of the wearer. The bodysuit is made of a titanium-based material, making it very strong and yet very flexible. It also serves as another layer of protection against ballistics attacks and is coated with a heat resistant material to disperse heat from plasma weapons.
 * Titanium nanocomposite bodysuit:

Outer shell and components
The outer shell of the MJOLNIR armor is comprised of a fairly thick titanium alloy. This alloy is very resilient, can take significant punishment, and is nearly impervious to small arms fire. While enough shots from armor piercing rounds will breach the outer shell, the suit can take a few glancing blows from them without compromising the armor. The outer shell of the MJOLNIR suit is covered with a refractive coating to help disperse the heat experienced from Covenant energy weapons. However one or two direct hits from any Plasma weapon will compromise the armor plating.

The MJOLNIR helmet is one of the most vital aspects to the MJOLNIR armor system. It is made of titanium and features a heads-up display, that links to the brain and hands, and can identify equipment and display information about it when it is picked up by the wearer. A environmental control unit that includes filters to remove toxins from the atmosphere, and a rebreather to automatically supply oxygen to the wearer during EVA. In addition the helmet is packed with thermal and motion sensors, communications, solar-powered lighting, and imaging and video gear.
 * Integrated Communications Helmet:

The most important feature though, is the direct neural interface system which connects to a SPARTAN-IIs neural implants. Two core processor chips are implanted into the subjects skull in the rear of the head. This is essentially comparable to an on board computer using parts of the human brain for processing - when the connector at the rear of the subjects head and receptors in the brain link to the helmets on board sensors it creates the neural link needed to move the MJOLNIR suit.

The titanium chest plating provides maximum ballistics protection in both generational versions of the Mark IV. The older generation consists of wide plating to allow for free rotation of the head and neck; the external mic is located below the collar area and below that an environmental control unit. The earlier generation also had large arm sockets, and the waist area consists of free rotating bearings which lock into the lower body or jumper armor section. Later versions of the chest plates are more angular and are joined via a hinge system on both the central brace and the shoulder connectors, allowing them to rise and fall with the user's movements.
 * Titanium alloy outer shell/chest:

The earlier versions of the soldier and arm plating consisted of an organic shape with larger shoulder area for ample protection the upper assembly piece sits flush inside the upper-arm armor. The elbow armor was hinged sit flush with one another when arm is straight, making hyperextension impossible without ample force to destroy the armor. The forearm armor is the same with locking pieces to prevent overrotation, the lower portion is attached to the handguard. The range of motion is adequate for firearm use and hand-to-hand combat, however the guard prevents hyperextension of the wrist. Later revisions to this armor discard this for more nanofabricated pieces and more mobility focused plating. The pauldrons are mounted at a downwards diagonal angle at the upper edge of the shoulder, independently of the armor below them. This allows the lower arm pieces to slide and rotate beneath them, and when the arms are raised, the angled pauldrons move with them.
 * Titanium alloy outer shell/arms:

The MJOLNIR armor's torso plating is connected to the upper-torso plating by free-rotating waist connectors the waist plating contains ammunition/utility pouches. The lower-abdomen plate connects into a track for upper torso bending, the codpiece is connected to the femoral-artery armor.
 * Titanium alloy outer shell/waist:

The MJOLNIR PAA's leg armor consists of two major plating sections, with a third piece protecting the knees. The earlier version of the armor consisted of the thigh armor which is actually two sections held together by two locking collars, the knee pads are secured on the sides. The lower leg contains reinforced pezioelectric bladders which secure ankle and lower legs to prevent impact injury from high-elevation jumps. The boots consist of 15mm-thick soles, which are secured by a foot covering hinge locking bolt.
 * Titanium alloy outer shell/legs:

Available on updated outer armor components of the Mark IV the magnetic strips are very small yet powerful magnets placed on the legs, waist, and back of the suit and is used to hold any equipment with a magnetic property. The suit also contains a magnet system on the boots of the MJOLNIR suit that allow its wearer to stay attached to a metal surface in Zero-G environments and can be toggled on or off by the wearer. In addition to the magnetic holders, the default Mark IV is also equipped with utility pouches on the waist and a clip for a holster capable of accommodating most UNSC sidearms.
 * Magnetic weapon holder strips:

The biofoam injectors on the Mark IV is a port where a direct supply of biofoam or other medicines, must be administered from a standard military first aid kit when the wearer is injured, as the suit does not hold or generate its own supply inside the suit.
 * Biofoam injector port:

Integrated in the limited production model of the MJOLNIR PAA the nuclear fission reactor was the MJOLNIR armors source of power, the reactor was built into the suit and allowed for unlimited power. However because of the delicacy and radioactive nature of the fission reactor its use was limited until it was replaced with a micro-fusion plant in the final production model in 2535.
 * Fission reactor:

Integrated in the final production model in 2531, the microfusion cell is the most vital component to the MJOLNIR system, as it provides power to all components of the MJOLNIR armor. The reactor is built into the suit and allows for nearly unlimited power. The fusion reactor in all versions of the MJOLNIR armor is half the size of a normal fusion pack that conventional marines carry around.
 * Microfusion reactor:

The power supply control unit is integrated into the miniature fusion reactor located on the back of the MJOLNIR suit. It provides power distribution to the suit's functions and can be overloaded when too much power is allocated to one function or all functions for long periods of time.
 * Power supply control unit:

Trivia

 * The armor description for the CQC variant in Halo: Reach Multiplayer Beta states that the CQC variant, the precursor for the C variant, entered service in 2548, thus making it impossible for the C variant to have been in use around twenty years earlier. In addition, the C variant was developed using feedback from the Battle of Jericho VII, which occurred years after the Harvest Campaign. The director's commentary for the episode reveals that the armor's appearance is largely an aesthetic concession to the studio to allow for some visual variety for the character, and as a nod towards multiplayer fans who use armor permutations, such as the CQC variant. The same is true for the armor's color, though this is also representative of an effort to camouflage the suit. This means that other than the suit's color, the armor's appearance is non-canon.
 * In Halo: Legends, most of the designs for characters, armor, and so forth are portrayed with considerable artistic interpretation and may or may not be embraced as canon. However, a video on Halo Waypoint has revealed that the Mark IV suit featured in The Package is one of several variants, which, despite its appearance, shares its internal components with the rest of the Mark IV line.