The Schumann resonances (SR) are a set of spectrum peaks in the extremely low frequency (ELF) portion of the Earth's electromagnetic field spectrum. Schumann Resonance signals as the S-GMA biophysical Rhode Island, showing the first five Schumann Resonances modes, Polk. (). nadas resonancias Schumann, las cuales se producen en la cavidad reso- nante terrestre, en la capa de la ionos- fera, y las ondas de Alfvén. Es bien.
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Key words: Schumann resonance: receiving antennas: active filters, operational amplifiers, Schumann-resonance frequencies are given by the following. PDF | Evidence of a new geomagnetic resonant structure observed at Teoloyucan Teoloyucan, México (ERT, Estructura de las Resonancias en T eoloyucan) en . ionosphere waveguide (Schumann Resonance), operating. Key Words: Schumann resonance, Earthquake, ELF, Fourth mode SR, Ionosphere, bedsramlofosse.gq
This in turn can help facilitate cooperation and collaboration in innovative problem solving and intuitive discernment for addressing society's significant social, environmental, and economic problems.
In time, as more individuals stabilize the global field and families, workplaces, and communities move to increased social coherence, it will lead to increased global coherence.
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This will be indicated by countries adopting a more coherent planetary view so that social and economic oppression, warfare, cultural intolerance, crime, and disregard for the environment can be addressed meaningfully and successfully. Es bien sabido que estas frecuencias resonantes se superponen directamente con las que se producen en el cerebro y el sistema cardiovascular. Many people perceive that humanity has reached a critical juncture in these early years of the 21st century.
We are on the threshold of a new stage of social, spiritual, and cultural evolution.
We are evolving out of nationally based industrial societies toward an interconnected, information-based social, economic, and cultural system that spans the entire planet. The path of this transition is not certain; it is proving to be filled with numerous shocks and surprises.
Worldwide, people are experiencing mounting concerns about climate change, terrorism, energy and water shortages, food and product safety, and economic instability. Such concerns are justified with the extreme volatility in global financial markets and the increase in frequency of record-breaking destructive weather, fires, and floods, as well as earthquakes, tsunamis, and volcanic eruptions.
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There is also an increase in social unrest and the number of revolutions, insurrections, and uprisings. This accelerating pace of change in the world is contributing to a momentum of global incoherence, stress, and instability.
All too often, this results in stress, confusion, lack of focus, a narrowing field of perception, frustration, anxiety, and depression—all of which negatively impact relationships, health, productivity, and the global energetic field environment.
When multiplied by the number of people who are affected, the growing insecurity has become a global paradigm that permeates our political, financial, social, educational, and natural environments. We are at a choice point, and it is arguably the most important ever faced.
It is defined by technological sophistication that is not matched by an evolution in consciousness and social development.
We see the social and environmental devastation that has been brought by the application of science and engineering to conquer the natural world.
At the same time, there is an increase in the number of individuals, groups, and organizations around the world who are longing and working for peace, environmental improvement, and social change.
We are on the verge of a shift in human consciousness, one in which we are co-creators and more in control of our own evolution. As a shift is instated, it brings new models for living together on the earth in cooperative and collaborative union, but increasing stress makes it more difficult for individuals, groups, and organizations to carry out their intentions and actualize their missions.
While practices to increase balance and peace through personal and collective efforts, such as prayer, meditation, affirmations, focused intention, and other methods can positively add to the field environment, due to the stress of the current times, people often still find it difficult to calm down, focus, and quiet the mind, thereby compromising the effectiveness of their efforts.
It indicates a quasi-instant connection among the parts or elements of things, whether an atom, an organism, or a galaxy. This kind of coherence is observed in fields as diverse as quantum physics, biology, cosmology, and brain and consciousness research. The new picture that has emerged is that all living systems are interconnected at a deep fundamental level and communicate with one another via biological fields and nonlocal mechanisms.
It has been reliably shown that solar and geo-magnetic cycles not only correlate with human health indicators, but also with such major societal conflicts as violence, crime, terrorism, and war. It is our increasing understanding of how coherence functions in the human system that is relatively new, as well as scientific studies on how we can increase it.
The Institute of HeartMath IHM has identified a psychophysiological state that is the underpinning of optimal function they termed heart coherence. Positive emotions such as love, appreciation, and compassion generate a heart-rhythm pattern that is more ordered and coherent, whereas negative emotions such as anxiety, anger, and fear generate a disordered, incoherent heart-rhythm pattern.
Studies have found that the combination of emotional self-regulation techniques with heart rhythm coherence monitoring technology emWave has proven to be highly successful for reducing stress, anxiety, anger, chronic pain, fatigue, and burnout, as well as many other stress-related conditions. The inner rhythm and state of heart coherence is what many meditation techniques are trying to achieve.
The emWave helps people quickly get into a meditative state and provides feedback when they lose focus. It also signals when they return to a coherent state.
As a person's heart coherence baseline increases, he or she will experience more mental clarity, creativity, and focus during the day. The carryover effect helps users to be more conscious and intuitive at choice points, allowing them to choose their actions and reactions rather than automatically responding in the same old stress-producing behavior patterns.
A primary goal of GCI is to determine the effects of collective emotional responses that are reflected in the earth's energetic fields ionosphere and geomagnetic field.
Similar results were obtained by Pechony et al. It was assumed that the distribution of lightning in the satellite maps was a good proxy for Schumann excitations sources, even though satellite observations predominantly measure in-cloud lightning rather than the cloud-to-ground lightning that are the primary exciters of the resonances.
Both simulations—those neglecting the day-night asymmetry, and those taking this asymmetry into account—showed the same Asia-America chimney ranking. On the other hand, some optical satellite and climatological lightning data suggest the South American thunderstorm center is stronger than the Asian center.
Influence of the day-night asymmetry[ edit ] In the early literature the observed diurnal variations of Schumann resonance power were explained by the variations in the source-receiver lightning-observer geometry.
They interpreted the diurnal variations observed at each station in terms of a combination of a diurnally varying global excitation modulated by the local ionosphere height.
Their work, which combined both observations and energy conservation arguments, convinced many scientists of the importance of the ionospheric day-night asymmetry and inspired numerous experimental studies. However, recently it was shown that results obtained by Sentman and Fraser can be approximately simulated with a uniform model without taking into account ionosphere day-night variation and therefore cannot be uniquely interpreted solely in terms of ionosphere height variation.
This time-matching seems to support the suggestion of a significant influence of the day-night ionosphere asymmetry on Schumann resonance amplitudes. There are records showing almost clock-like accuracy of the diurnal amplitude changes.
There are studies showing that the general behavior of Schumann resonance amplitude records can be recreated from diurnal and seasonal thunderstorm migration, without invoking ionospheric variations. Part of this controversy stems from the fact that the Schumann resonance parameters extractable from observations provide only a limited amount of information about the coupled lightning source-ionospheric system geometry.
The problem of inverting observations to simultaneously infer both the lightning source function and ionospheric structure is therefore extremely underdetermined, leading to the possibility of non-unique interpretations.
However, occasionally extremely large lightning flashes occur which produce distinctive signatures that stand out from the background signals. Called "Q-bursts", they are produced by intense lightning strikes that transfer large amounts of charge from clouds to the ground and often carry high peak current. The source location is determined with either multi-station or single-station techniques and requires assuming a model for the Earth—ionosphere cavity.
The multi-station techniques are more accurate, but require more complicated and expensive facilities. Transient luminous events research[ edit ] It is now believed that many of the Schumann resonances transients Q bursts are related to the transient luminous events TLEs. In , Boccippio et al.
Recent observations   reveal that occurrences of sprites and Q bursts are highly correlated and Schumann resonances data can possibly be used to estimate the global occurrence rate of sprites. The link between Schumann resonance and temperature is lightning flash rate, which increases nonlinearly with temperature. Moreover, the ice particles that are believed to participate in the electrification processes which result in a lightning discharge  have an important role in the radiative feedback effects that influence the atmosphere temperature.
Schumann resonances may therefore help us to understand these feedback effects. A paper was published in linking Schumann resonance to global surface temperature  , which was followed up with a study. Upper tropospheric water vapor UTWV has a much greater impact on the greenhouse effect than water vapor in the lower atmosphere ,  but whether this impact is a positive or a negative feedback is still uncertain.
Continental deep-convective thunderstorms produce most of the lightning discharges on Earth. In addition, they transport large amount of water vapor into the upper troposphere , dominating the variations of global UTWV. Price   suggested that changes in the UTWV can be derived from records of Schumann resonances.
On other planets and moons[ edit ] The existence of Schumann-like resonances is conditioned primarily by two factors: A closed, planetary-sized and approximately spherical cavity, consisting of conducting lower and upper boundaries separated by an insulating medium.
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For the earth the conducting lower boundary is its surface, and the upper boundary is the ionosphere. Other planets may have similar electrical conductivity geometry, so it is speculated that they should possess similar resonant behavior. A source of electrical excitation of electromagnetic waves in the ELF range. Modeling Schumann resonances on the planets and moons of the Solar System is complicated by the lack of knowledge of the waveguide parameters.
No in situ capability exists today to validate the results. Venus[ edit ] The strongest evidence for lightning on Venus comes from the impulsive electromagnetic waves detected by Venera 11 and 12 landers.
Theoretical calculations of the Schumann resonances at Venus were reported by Nickolaenko and Rabinowicz   and Pechony and Price . Mars[ edit ] In the case of Mars there have been terrestrial observations of radio emission spectra that have been associated with Schumann resonances.There seem to be no works dedicated to Schumann resonances on Saturn.
However, recently it was shown that results obtained by Sentman and Fraser can be approximately simulated with a uniform model without taking into account ionosphere day-night variation and therefore cannot be uniquely interpreted solely in terms of ionosphere height variation.
Upper tropospheric water vapor UTWV has a much greater impact on the greenhouse effect than water vapor in the lower atmosphere ,  but whether this impact is a positive or a negative feedback is still uncertain.
Dependence on global lightning activity[ edit ] From the very beginning of Schumann resonance studies, it was known that they could be used to monitor global lightning activity. We will soon post the Interactive PDF.