Nathan Myhrvold (Intellectual Ventures Co-founder) – Why former Microsoft CTO Nathan Myhrvold is taking the highest-resolution snowflake photos ever (Nov 2020)
Chapters
Abstract
Snowflakes: A Microscopic Journey into Nathan Myhrvold’s World of Ice Crystals
Nathan Myhrvold’s fascination with snowflakes began as a child, admiring their beauty and intricate structures. As a photographer, he became interested in capturing the beauty of snowflakes, recognizing their significance as a source of water and their fleeting nature. Overcoming the challenges posed by their small size and fragility, he embarked on a mission to photograph these transient ice crystals. The journey led to the invention of groundbreaking equipment, including a microscope with a rigid carbon fiber frame and a precision stage, specifically designed for the unique requirements of snowflake photography.
The Inception of a Vision: Capturing Snowflake Beauty
Myhrvold’s fascination with snowflakes began with their delicate complexity and their crucial role in the water cycle. Overcoming the challenges posed by their small size and fragility, he embarked on a mission to photograph these transient ice crystals. The journey led to the invention of groundbreaking equipment, including a microscope with a rigid carbon fiber frame and a precision stage, specifically designed for the unique requirements of snowflake photography.
Innovative Technology: The Snowflake Camera
Nathan Myhrvold’s journey into photographing snowflakes presents a fascinating intersection of art, science, and technological innovation. Myhrvold, a polymath with a passion for photography and natural phenomena, has transcended traditional boundaries in capturing the ethereal beauty of snowflakes. Through a combination of specialized equipment, including a custom-built microscope and camera system, and a deep understanding of the scientific and artistic aspects of snowflakes, Myhrvold offers us a glimpse into the intricate and transient world of these ice crystals. This article delves into the challenges and triumphs of his endeavor, from the construction of a snowflake-specific camera to the technical nuances of capturing their fleeting beauty, illuminating the importance of curiosity and adaptability in the pursuit of knowledge.
The heart of Myhrvold’s project is a unique camera system, co-developed with experts, featuring a microscope lens and a cold stage. This system is capable of capturing high-resolution images, revealing details invisible to the naked eye. The camera’s sophisticated design includes a microscope slide made of artificial sapphire, offering high thermal conductivity and scratch resistance, essential for preserving the delicate structure of snowflakes during observation.
Artificial Sapphire:
– To ensure the preservation of delicate snowflake structures during observation, Myhrvold employed artificial sapphire, a durable and thermally conductive material, as a transparent material.
– This material prevents the snowflakes from melting upon contact, maintaining their intricate structures.
– Artificial sapphire is commonly found in phone screens and high-end watch crystals.
Pulsed LED Lighting Innovations:
– Continuous LED lighting posed a challenge, as it melted or sublimated the snowflakes too quickly.
– Myhrvold collaborated with a Japanese company to obtain special pulsed LED lights, designed for machine vision applications.
– These pulsed LEDs minimize heat transfer and freeze motion, eliminating vibrations in the system.
Outdoor Setup and Locations for Snowflake Photography:
– Snowflake photography typically requires an outdoor setup, such as a porch, balcony, or high-rise hotel room with a small balcony.
– Suitable locations for snowflake photography include Timmins, Ontario, Fairbanks, Alaska, and Yellowknife, Northwest Territories.
From Snowflakes to the Milky Way: Myhrvold’s Artistic Endeavors
Beyond snowflakes, Myhrvold’s artistic expression extends to astronomical photography. His creation of a multi-gigapixel mosaic of the Milky Way showcases his ability to blend scientific curiosity with artistic vision. This project, like his snowflake photography, involves extensive computational photography and challenges in image processing, further highlighting his multidisciplinary expertise.
Technological Mastery: Building a Multiprocessor System
To manage the enormous data from his photographic ventures, Myhrvold designed a multiprocessor system, optimizing software for GPU utilization. This system demonstrates his proficiency in not only capturing images but also in efficiently processing and analyzing them. His choice of hardware reflects a keen understanding of the specific needs of his projects, prioritizing performance and portability.
Structured Light and DLP:
– DLP (Digital Light Processing) is a light projector technology initially developed by Texas Instruments for projection TVs.
– DLP uses a chip with millions of mirrors to project light patterns.
– Structured light approaches utilize light beams to create 3D models.
– DLP is not suitable for snowflake microscopy due to its limitations in focusing.
– Fan beam lasers offer better focusing capabilities for structured light applications.
Composite Photos and Capturing Thousands of Shots:
– Each snowflake photo presented is a composite of 100 to 500 individual shots.
– During a three or four-day trip to the North for snowflake photography, Nathan Myhrvold and his team typically take around 50,000 shots.
– This extensive image capture resembles astrophotography techniques, where multiple exposures are stacked to enhance the final image.
Understanding Snowflake Formation:
– Snowflakes form in a temperature-sensitive environment where water molecules arrange themselves into hexagonal crystals.
– The dendritic growth pattern occurs when initial arms nucleate additional arms, creating a star-shaped structure.
– The symmetric appearance of snowflakes results from similar growth patterns on each side.
A Testament to Curiosity and Innovation
Nathan Myhrvold’s work in photographing snowflakes and beyond stands as a testament to the power of curiosity, adaptability, and innovation. His journey from conceptualizing to capturing the fleeting beauty of snowflakes illustrates a remarkable blend of artistic vision and scientific acumen. His endeavors, spanning from microscopic ice crystals to the vastness of the Milky Way, underscore the limitless potential of interdisciplinary exploration and the continuous pursuit of knowledge.
Notes by: crash_function