Laser Growth

Laser Growth Technology: Pioneering Sustainable, Efficient Horticulture

As the global population is projected to surpass nine billion by 2050, the demand for food is expected to increase by 70%. To address this challenge, advanced technology is emerging as a critical solution to improve crop yields and optimize resource efficiency. Our Laser Growth technology represents an innovative approach, designed to leverage laser-enhanced plant growth for sustainable, pesticide-free horticulture.

Our proprietary system utilizes a combination of single-wavelength lasers, Light Emitting Diodes (LEDs), and natural sunlight, enhancing the speed and quality of plant growth without the need for chemicals. Studies, including one from the University of California, Santa Barbara, have demonstrated that plants exposed to specific laser wavelengths, such as helium-neon lasers (red light), show improved tissue repair and resilience, enabling faster, healthier growth. This breakthrough reduces reliance on traditional growth enhancers, providing a cleaner, more sustainable approach to food production.

Advantages of Single-Wavelength Laser Technology Phenotypical, biochemical, and proteome analyses confirm that single-wavelength laser light is particularly effective for plant growth, paving the way for a new era of high-efficiency horticultural lighting. Compared to standard LEDs, semiconductor lasers offer exceptional benefits:

Energy Efficiency

Semiconductor laser diodes (LDs) exhibit a significantly higher power conversion efficiency (PCE), especially at high current densities (≥10 kW/cm²). This enables a greater output of optical light per unit of input power than typical horticultural LEDs, making them ideal for high-intensity plant growth environments.

Enhanced Light Quality

While traditional red and blue LEDs suffer from PCE losses at input densities exceeding 1 kW/cm², laser diodes maintain their efficiency at much higher power densities. This means that laser lighting can deliver consistently powerful and efficient illumination without the rapid degradation seen in other light sources.

Scalability and Versatility

Unlike other lighting technologies, semiconductor lasers can be finely tuned to specific wavelengths that optimize photosynthesis and plant metabolism, offering unmatched adaptability for diverse plant species and growth conditions.

Our Laser Growth technology is designed to meet the growing global need for sustainable agriculture by enhancing plant resilience and yield while significantly reducing energy use. By harnessing the precision of semiconductor lasers, we are pioneering a future where agriculture meets the highest standards of efficiency and environmental stewardship, making a sustainable, food-secure future achievable.