About Brainwaves

About Brainwaves  

brainwaves

The brain is an incredibly complex organ. In fact, it is the most complex organ in the entire human body, one that we are still learning about in modern medicine. The brain is alive with electrical activity, and is responsible for our thoughts, our emotions, and our behaviors. For it to function optimally, the different parts of the brain must talk to one another effectively. This brain communication is achieved by transmitting electrical signals along neurons that connect one area of the brain to another. These signals are called neuronal oscillations, or brain waves.
What are the different types of brainwaves?
Brain waves are not all equal. They are of different bandwidths which impact how we feel. Think about days when you feel tired and sluggish—your dominant brain waves are of a slower frequency, and are very different to the brain waves that are dominant when you feel alert and active. Brain waves, like sound waves, light waves, and radio waves, are measured in Hertz (Hz), which is the standard unit of measurement used for measuring frequency. One hertz equals one cycle per second.
Brainwaves at different frequencies can be observed at different times throughout the day. The frequencies below are just a guideline, as different researchers will assign different levels to each stage of brainwaves:
0.1 Hz or less – these are Infra-low brain waves. They are very very slow brain waves that are difficult to detect. When scientists first detected these ultra-slow brain waves decades ago when scanning the brains of people at rest, they put them down to electrical “noise” and were largely ignored. These brain waves are still very difficult to detect, so there has not been a lot of research carried out on them. Typically they do not even feature under the commonly described brainwave sets.
0.1 Hz to 3 Hz – these are Delta brain waves. They are also slow, but loud, usually generated in deep sleep, however we experience delta brain waves in the womb, and throughout early infancy. It’s difficult to study because these waves are present in dreamless sleep—a seemingly unconscious state—and it’s virtually impossible for people to remember what they were feeling or thinking when their brain was producing this frequency of brain wave. It is believed that healing and regeneration are stimulated in this state, which is why we often feel so good and refreshed after waking from a very deep, dreamless sleep.
4 Hz to 7 Hz– these Theta brain waves are also dominant during sleep, when our brains have slowed down. However, we are more likely to experience dreaming than in a Delta state. Theta brain waves are also dominant in deep meditation, or daydreaming. We are in theta as we drop off to sleep, when we’re neither awake or asleep, or when we are doing something that is so automatic that we mentally disengage. It’s often during this time that people have great ideas (a “brainwave”!). When your brain is producing theta brain waves, you will feel incredibly relaxed, therefore it is typically a very positive mental state to be in. The Theta range is also where some research suggests is how we store deep emotional experiences.
8 Hz to 12 Hz – at this frequency the brainwaves are called Alpha brain waves. They are dominant when the brain is “resting” and not working through complex thoughts. Deep breathing exercises can be practiced to calm the brain and bring it to an alpha state. This can stop the mind from wandering, and keep attention in the present. This process is often referred to as mindfulness and is used as a method for stress reduction. Many top athletes and performers have higher alpha states while performing their tasks. They often describe it as being “in the zone”.
12 Hz to 30 Hz – these are Beta brain waves and they dominate during our usual waking hours. We need Beta brain waves in order to be able to function cognitively and problem solve, make decisions, use our judgement, or any other activity requiring us to be alert and engaged.
On the low end of the spectrum, Beta brain waves would be seen when we are awake, functioning, but not necessarily using our brains for anything challenging. This might be when you’ve woken up and you’re getting out of bed, idling.
Mid-range Beta brain waves would be present when we are functioning cognitively, such is when we are driving a difficult route, or thinking through our plans for the day etc.
Brain waves in the higher end of the Beta Hz range are present when we are extremely engaged – anxious, excited, fearful etc. A large amount of energy is required to run the brain at such a high frequency, therefore “slowing the brain down” and bringing it to more normal Beta brainwave levels is often a desired state.
31 Hz to 100 Hz – at this high frequency, the brain waves are called Gamma waves. These brain signals pass information very rapidly, and quietly.
There has been lots of research into brain waves, and it’s been determined that in general, only one of the four main brainwave states (Delta, Theta, Alpha, Beta) can be dominant at any given time, however, the other three are present to some degree. So, when someone is thinking cognitively, using their brain to solve a problem and is therefore exhibiting beta brainwave patterns, alpha, delta and theta waves can still be present, but at a very very low level.
How is your life affected by your brain waves?
The brain waves we are exhibiting control how we feel, not the other way round. Have you ever noticed how you might feel excruciatingly tired one afternoon, like you could just fall asleep then and there, yet a few hours later you’ve had a “second wind” and no longer feel that way? The tiredness was a result of the beta brain waves that are usually dominant when we are awake being pushed aside and theta or alpha waves dominating.
When our brain waves are out of balance, there results a corresponding emotional or neuro-physical imbalance. Over or under arousal of the brain waves can cause neurological conditions such as anxiety, impulsive behavior, anger or aggression (over-arousal) and depression, attention deficit, and insomnia (under-arousal). Both can also be present in cases of anxiety, depression and ADHD to name a few.
Put simply, it’s the brain wave instabilities that cause these conditions, therefore to correct the condition means changing the brain waves. This can be achieved by medication, or by non-invasive, non-medicinal treatment such as neurofeedback—brainwave training.
How can you change your brain waves to function better?
Neurofeedback works by helping people to correct the signal messaging in the brain to ensure the electrical signals are synchronized because “neurons that fire together wire together”. When two neurons fire in the brain at the same time, they become associated with one another, and the neuronal connections (wiring in our brain) become stronger.
Our body responds to both internal and external factors and environments to keep us in a state of homeostasis which is “the ability or tendency to maintain internal stability in an organism to compensate for environmental changes”. Our brains control all our functions, like respiratory rate, heart rate, blood pressure, and body temperature. In general, this is done subconsciously, with no effort on our part.
Neurons that fire together wire together
Consciously achieving this balanced state can be achieved by neurofeedback, creating healthy brain wave states on demand. People have been using forms of neurofeedback for many years in the form of yoga and deep meditation to refine and improve their mental processes.