Unlocking the Power of Light, Sound, and the Brain
Discover how our technology uses science-backed principles to enhance your everyday experience—no medical claims, just positive possibilities.
Your Brain, Ever-Adapting.
Engage. Enrich. Enjoy
Neuroplasticity is your brain’s natural ability to change and adapt by forming new connections. Think of it as your brain’s way of learning and evolving.
When exposed to the right stimuli—like Craft light and sound—the brain engages with these inputs, creating new neural pathways that can improve focus, relaxation, or creativity.
Chemical and Anatomical Plasticity of Brain
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Temporal processing deficits of language-learning
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Experience-driven brain plasticity
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Chemical and Anatomical Plasticity of Brain
Temporal processing deficits of language-learning
Experience-driven brain plasticity
The Science of
Stroboscopic light is more than just flickering—it’s carefully calibrated patterns designed to sync with your brain’s natural rhythms. This can enhance relaxation, promote focus, or even elevate your mood.
Our lights are set at safe, non-invasive frequencies to ensure an enjoyable and engaging experience.
Neural Dynamics of Stroboscopic Stimulation
Neural Dynamics of Stroboscopic Stimulation
Neural Dynamics of Stroboscopic Stimulation at Different Stimulation Frequencies by Rasa Gulbinaite et al. (2021). This study investigates how various frequencies of stroboscopic light affect neural dynamics, including signal diversity and spectral power, and examines the relationship between these neural changes and self-reported experiential content.
Effect of Frequency and Rhythmicity
Effect of Frequency and Rhythmicity
Effect of Frequency and Rhythmicity on Flicker Light-Induced Hallucinatory Phenomena by Loanna Alicia Amaya et al. (2023). This research explores how different frequencies and rhythmic patterns of flickering light influence the intensity and nature of visual hallucinations, providing insights into the neural mechanisms underlying these experiences.
Altered States Phenomena
Altered States Phenomena
Altered States Phenomena Induced by Visual Flicker Light Stimulation by Marie Therese Bartossek et al. (2021). This study examines the subjective experiences induced by stroboscopic light at specific frequencies, assessing alterations in consciousness and the vividness of visual hallucinations, and discusses the potential therapeutic applications of such stimulation.
Why Multisensory Engagement Matters
Your brain thrives on rich, multisensory experiences—those that combine sight, sound, and even touch. By stimulating multiple senses, we can create deeper engagement and amplify the effects of light and sound. Think of it as a symphony for your brain, compared to a solo performance.
The Rhythm of
Our technology uses specific light and sound frequencies and vibrations designed to complement your brain’s natural rhythms. These frequencies can help you feel more focused, relaxed, or energized, depending on the setting.
Every frequency is chosen with care, backed by studies on how sound and vibration impact the brain.
Rooted in Research
We believe in transparency and integrity. Every principle behind our technology is supported by credible science. While we don’t make medical claims, we’re excited to share the research that inspires our work.
- "Dynamic Brains and the Changing Rules of Neuroplasticity: Implications for Learning and Recovery" by Bryan Kolb and Robbin Gibb (2017). This paper discusses how neuroplasticity enables the brain to adapt to experiences, learning, and recovery from injury, emphasizing the variability of plastic responses across different contexts.
- "Exploring the Role of Neuroplasticity in Development, Aging, and Disease" by Sushmita Panja and Anirban Dutta (2023). This article examines how neuroplasticity influences brain function across the lifespan and its implications for neurological diseases, highlighting the brain's capacity for reorganization in response to various factors.
- "The Combined Influences of Exercise, Diet, and Sleep on Neuroplasticity" by Martina Foglia et al. (2022). This review gathers evidence from molecular, systems, and behavioral neuroscience to explain how these three key lifestyle factors influence neuroplasticity alone and in combination with one another.
- "Neural Dynamics of Stroboscopic Stimulation at Different Stimulation Frequencies" by Rasa Gulbinaite et al. (2021). This study investigates how various frequencies of stroboscopic light affect neural dynamics, including signal diversity and spectral power, and examines the relationship between these neural changes and self-reported experiential content.
- "Effect of Frequency and Rhythmicity on Flicker Light-Induced Hallucinatory Phenomena" by Ioanna Alicia Amaya et al. (2023). This research explores how different frequencies and rhythmic patterns of flickering light influence the intensity and nature of visual hallucinations, providing insights into the neural mechanisms underlying these experiences.
- "Altered States Phenomena Induced by Visual Flicker Light Stimulation" by Marie Therese Bartossek et al. (2021). This study examines the subjective experiences induced by stroboscopic light at specific frequencies, assessing alterations in consciousness and the vividness of visual hallucinations, and discusses the potential therapeutic applications of such stimulation.
- "Benefits of Multisensory Learning" by Ladan Shams and Aaron R. Seitz (2008). This paper discusses how engaging multiple senses can enhance learning outcomes, emphasizing that the human brain has evolved to process multisensory signals, making such learning more natural and effective.
- "Facilitation and Interference Effects of the Multisensory Context on Learning" by Deng et al. (2022). This study systematically reviews and analyzes how multisensory environments influence learning, identifying conditions under which such environments facilitate or hinder the learning process.
- "Effects of Simulated Multi-Sensory Stimulation Integration on Physiological and Psychological Health Recovery" by Zhang et al. (2024). This research explores how different combinations of simulated sensory stimuli in virtual urban green spaces affect participants' physiological and psychological health, highlighting the potential of multisensory stimulation in promoting well-being.
- "Gamma Entrainment Frequency Affects Mood, Memory and Cognition: An Exploratory Pilot Study" by Shamim Kaiser and Jianhui Chen (2020). This exploratory pilot study provides evidence that using a 40 Hz gamma entrainment frequency can improve mood, memory, and cognition. Participants were divided into three groups, each receiving different binaural entrainment frequencies (40 Hz, 25 Hz, and 100 Hz), and attended eight sessions. The study found that the 40 Hz group showed significant improvements in the measured outcomes.
- "Potential of Binaural Beats Intervention for Improving Memory and Cognition" by Basu and Banerjee (2022). This study examines the effects of binaural beat entrainment on memory and cognitive functions. The authors discuss the theoretical underpinnings and practical implications of using binaural beats to treat various conditions, including anxiety, pain, learning disorders, attention, intelligence, and memory.
- "Provoking Predetermined Aperiodic Patterns in Human Brainwaves" by Richa Phogat and P. Parmananda (2018). This research explores the entrainment of brainwaves using various stimuli, including periodic auditory and visual signals. The study observed consistent entrainment with periodic visual stimulation and investigated the evolution of brainwaves in response to aperiodic stimulation, suggesting potential applications in processes such as epilepsy suppression and biofeedback.
Light and sound therapy, as used in our neurostimulation device and brainwave entrainment device, leverages advanced scientific principles to stimulate brain activity and promote long-term cognitive growth. Here’s how it works:
40 Hertz Light Therapy and Brainwave Entrainment
40 hertz light therapy is closely linked to brainwave entrainment, a process where external light and sound rhythms synchronize with your brainwaves. This synchronization helps enhance cognitive functions such as focus, memory, and mental clarity, creating a foundation for neurocognitive training.
Stroboscopic Light Therapy for Brain Activation
Stroboscopic light therapy boosts brain activity by delivering rhythmic flashes of light that stimulate neural pathways. This technique heightens mental clarity and improves focus, pushing your brain into higher states of cognitive performance and accelerating the neuroplasticity of the brain.
Encouraging Neuroplasticity Through Synchronization
By aligning brainwaves with external stimuli, light and sound therapy helps your brain adapt and rewire itself. This synchronization not only enhances short-term focus and cognitive performance but also promotes neuroplasticity, allowing your brain to build and strengthen neural connections for long-term mental flexibility and resilience.
Ready to Explore
The Possibilities
Whether you’re looking to relax, focus, or simply experience something new, our technology is designed for you
