Gariaev believes that photographs contain not just flat images of individuals depicted but also photonic information about them that can be extracted using laser beam technology and recorded into sound matrixes for healing purposes.
He also found evidence of DNA codon sequence reprogrammability – evidence that genetic code doesn’t merely represent instructions but has an inherent linguistic element.
Wave Genetics
Wave Genetics is an innovative new way of transmitting DNA information and instructions, using light and vibration rather than traditional cutting out and reinserting methods. The result is far more efficient; no damaged DNA needs to be reinserted! Moreover, entire sequences can be transferred and transformed (e.g. from frog embryo to salamander embryo), making Wave Genetics even capable of repairing damaged chromosomes!
This technology can be used to correct DNA mutations and help the body heal itself, as well as create new genetic codes that enhance quality of life for individuals. It represents an extremely promising new field of study.
Researchers have successfully managed to capture bioelectrical information patterns from cells and transfer them into another organism – for instance from frog eggs into salamander embryos – even transmitting their entire genetic sequence into one another – marking an incredible achievement in genetic engineering that may change lives worldwide.
Russian researchers have demonstrated through experiments that DNA information stored within an organism can be transmitted using light and vibrations. This finding confirms what esoteric and spiritual teachers have long asserted: our bodies can be programmed with language, sound and thought; however, frequency plays a key role – using incorrect frequencies will result in failure; those that work best are the ones which resonate with DNA.
Russian scientists have demonstrated that information can be transmitted using light and vibration waves, making DNA transfer possible between organisms of different species. Furthermore, they were able to successfully reprogram damaged chromosomes caused by X-ray exposure, an unprecedented breakthrough that will enable us to reprogram cells creating new forms of tissue within us and giving rise to an entirely different form of body.
Bio-Spintronics
Over recent years, there has been an explosion in interest for using nano/micro-scale spintronic devices for biomedical applications, such as improving magnetic sensor enhancement in MRI or magnetocardiography or neural signal recording and stimulation. Such devices take advantage of their highly sensitive spins’ response to external magnetic fields; their flexibility in being manufactured into large arrays within tight spaces; and resilience against harsh environmental conditions.
Implementation of bio-inspired technologies requires fabricating ultra-high density networks of complex processing units connected by tunable connections, with nonvolatile memory being key in breaking through von Neumann bottleneck. Unfortunately, micrometer scale implementation of such circuits remains challenging due to technological restrictions.
Spintronic technologies can address this challenge by providing multiple tunable functions within one device, enabling neuromorphic stochastic computing at high energy efficiency. One effective approach is magnetic tunnel junctions (MTJs) with moving domain walls; they combine integration and thresholding, simulating neural spiking by switching resistance on and off between ON/OFF states – one promising approach being using magnetic tunnel junctions with moving domain walls as part of an integrative strategy.
Another approach involves using a self-assembling monolayer on a ferromagnetic substrate and optically pumping it with a spin injection laser, inducing chiral magnetism with each spin injection pulse to filter out photons with different spin polarizations; this approach may also be applicable to biomedical applications, such as mitigating damage caused by free radicals in DNA.
These chiral-based spintronic devices can be constructed out of 2D atomically thin materials and demonstrated in multiple lab experiments, including spin-switching of helical lanthanide binding tag peptides on a ferromagnetic surface. Experiments have demonstrated that spintronic devices have up to 50% internal quantum efficiency for both parallel and antiparallel magnetization states, as well as being possible to integrate chiral spintronic devices in hybrid circuits using standard CMOS transistors. This technology may pave the way for an entirely new generation of low-power biomedical and memory devices that use less electricity, with benefits including more natural movement and control for prosthetic limbs or implanted devices, diagnosing neurological disorders quicker, and helping treat them more successfully.
Individual Matrix Programs
Matrix Model therapy was developed to assist individuals struggling with stimulant addiction, offering flexibility while meeting daily responsibilities – an advantage over residential treatments for people juggling work or school commitments and maintaining daily responsibilities. Incorporating family therapy sessions and random drug testing, the Matrix Model provides effective help.
The Matrix Model employs various treatment modalities, including cognitive behavioral therapy and motivational interviewing, in its time-limited structure of 16 weeks. The goal of the program is to promote early engagement and long-term recovery; its unique approach caters specifically for substance abuse disorders like cocaine and methamphetamine addictions.
Matrix Model also provides social support groups and sober living facilities to enhance recovery post-treatment. Support groups encourage participants to participate in drug-free activities while building relationships among those committed to sobriety – this can help maintain long-term sobriety post-treatment. Furthermore, sober living facilities can offer safe environments to help individuals adjust to life without drugs.
Matrix training can be effective, yet can also foster unhealthy competition among team members. To avoid this from occurring, focus on personal growth over comparison and encourage team members to explore different skill sets – doing this will allow the team to develop a well-rounded set of abilities tailored specifically for its needs.
Establish a skill matrix with multiple skill categories to facilitate hiring for open positions more easily and ensure all required skills are covered – for instance a data analyst might need knowledge in multiple programming languages and database systems. By creating such an extensive skillset you can reduce company hiring costs as well as speed up time-to-hire times; furthermore this approach will boost team effectiveness overall.
Metavital
Metavital is an innovative quantum physics technology that maps both body and mind with unprecedented detail. Over fifty years of research has produced this innovative tool, offering unprecedented insight into physical, emotional, mental health as well as root causes of illness or imbalances; as well as helping identify energy blockages at cell level that need correction before disease symptoms appear.
The Metavital Human Expert system employs MNLS 4-D biophoton technology to measure vibrations of organs and DNA within your body, and compare them with healthy frequencies from its database in order to detect imbalances in frequency patterns. Results are displayed clearly on a computer screen for easy interpretation.
At its core, Biofeedback helps people identify which emotions are disrupting their physical wellbeing, as well as identify and address epigenetic psycho-emotional beliefs which unknowingly dictate perceptions, thoughts, feelings, and actions. Finally, custom affirmations designed specifically to balance your energies can also provide support.
Metavital GmbH was established in 2005 and operates within the Manufacture of medico-technical instruments and supplies (n.e.c) sector of industry. Their safe number is DE01983487; view their credit report free today to gain more insight.
Metavital’s revenue increased 55% year-on-year to reach $1.5 million in 2018 thanks to their use of retargeting ads, which led to cost-effective leads that increased the potential of sales conversion. Furthermore, their campaign reached out to a wider audience and provided sustained engagement – helping maintain their market presence while expanding business operations.
