This is something we would not think of otherwise. However, 2400 years ago Chinese alchemy, or more properly Chinese Chemistry was at the height of its prestige and investment. This led to a number of discoveries that are been just now coming back into our knowledge base. Not least because it was deliberately well hidden through obscure codes.
This is one of their discoveries and an important one before the modern era.
All good stuff recently rediscovered and understood.
Han Purple: A 2,800-year-old artificial pigment that quantum physicists are trying to understand
23 NOVEMBER, 2014 -
01:03 APRILHOLLOWAY
Han purple is an
artificial pigment created by the Chinese over 2,500 years ago, which
was used in wall paintings and to decorate the famous terracotta
warriors, as well as ceramics, metal ware, and jewelry. The pigment
is a technological wonder, made through a complex process of grinding
up raw materials in precise proportions and heating to incredible
temperatures. So intricate was the process, that it was not
reconstructed again until 1992, when chemists were finally able to
identify its composition. But this was just the beginning. According
to a news report on io9.com, research since then has discovered
amazing properties of Han purple, including the ability to emit
powerful rays of light in the near-infrared range, as well as being
able to collapse three dimensions down to two under the right
conditions.
The production of Han
purple, otherwise known as Chinese purple, dates back as far as 800
BC, however it appears that it was not used in art until the Qin and
Han dynasties (221 BC – 220 AD), when it was applied to the world
famous terracotta warriors, as well as ceramics and other
items.
“Prior to the
nineteenth century, when modern production methods made synthetic
pigments common, there were only hugely expensive purple dyes, a
couple of uncommon purplish minerals, and mixtures of red and blue,
but no true purple pigment – except during a few hundred years in
ancient China,” writes Samir S. Patel in ‘Purple Reign: How
ancient Chinese chemists added color to the Emperor’s army’.
For an unknown reason,
Han purple disappeared entirely from use after 220 AD, and was never
seen again until its rediscovery by modern chemists in the 1990s.
Traces of Han purple can still be seen on many of the terracotta warriors (realhistoryww.com)
The Synthesis of Han
Purple
Unlike natural dyes,
such as Tyrian purple (from c. 1500 BC), which are organic compounds
and typically made from plants or animals, like the murex snail, Han
purple was a synthetic pigment made from inorganic materials.
Only two other
man-made blue or purple pigments are known to have existed in the
ancient world – Maya blue (from c. 800 AD), made from a heated
mixture of indigo and white clay, and Egyptian blue, which was used
throughout the Mediterranean and the Near and Middle East from 3,600
BC to the end of the Roman Empire. [Read similar: Egyptian Blue
– The Oldest Known Artificial Pigment].
Scientist Elisabeth
FitzHugh, a conservator at the Smithsonian, was the first to identify
the complex synthetic compound that makes up Han purple – barium
copper silicate, a compound that differs from Egyptian blue only
through its use of barium instead of calcium.
"Egyptian blue"
tripodic beaker (Wikimedia). The composition of Han purple differs
from Egyptian blue only in the use of barium instead of calcium.
The similarities
between Han purple and Egyptian blue led some early researchers to
conclude that the Chinese may have learned to make the pigment from
the Egyptians. However, this theory has been largely discounted as
Egyptian blue was not found further East than Persia.
“There is no clear
reason why the Chinese, if they had learned the Egyptian formula,
would have replaced calcium with barium, which necessitates
increasing the firing temperature by 100 degrees or more,” writes
Patel.
So how exactly did the
Chinese stumble upon the intricate formula to make Han purple, which
involved combining silica (sand) with copper and barium in precise
proportions and heating to about 850-1000 °C? A team of Stanford
physicists published a paper in the Journal of Archaeological Science
(summary here), which proposes that Han purple was a by-product of
the glass-making process, as both glass and the purple pigment
contain silica and barium. Io9.com writes that barium makes
glass shinier and cloudy, which means this pigment could be the work
of early alchemists trying to synthesize white jade.
Fluorescent properties
Since its composition
was first discovered, scientists have continued to investigate this
unique pigment. Researchers at the British Museum discovered that,
when exposed to a simple LED flashlight, Han purple emits powerful
rays of light in the near-infrared range. According to their study,
published in the journal Analytical and Bioanalytical Chemistry,
the Han purple pigments show up with startling clarity under the
right conditions, meaning that even faint traces of the color, which
are invisible to the naked eye, can be seen with infrared sensors.
A Western Han ceramic
bowl from Hebei or Hanan province (Avery Brundage
Collection, asianart.org), which contains traces of Han purple.
The purple pigment becomes strongly fluorescent under infrared
sensors (right).
Han Purple and the
collapsing of dimensions
The fluorescent
properties of Han purple were not the only surprise. Quantum
physicists from Stanford, Los Alamos National Laboratory and the
Institute for Solid State Physics (University of Tokyo) reported that
when Han purple is exposed to extreme cold and a high magnetic field,
the chemical structure of the pigment enters a new state called the
quantum critical point, in which three-dimension material ‘loses’
a dimension.
"We have shown,
for the first time, that the collective behavior in a bulk
three-dimensional material can actually occur in just two
dimensions," Ian Fisher, an assistant professor of applied
physics at Stanford said in the Stanford Report. "Low
dimensionality is a key ingredient in many exotic theories that
purport to account for various poorly understood phenomena, including
high-temperature superconductivity, but until now there were no clear
examples of 'dimensional reduction' in real materials."
The scientists have
proposed that this effect is due to the fact that the components of
barium copper silicate are arranged like layers of tiles, so they
don't stack up neatly. Each layers' tiles are slightly out of sync
with the layer below them. This may frustrate the wave and force it
to go two dimensional.
The researchers have
said the discovery may help understand the required properties of new
materials, including more exotic superconductors.
The strange collapsing
of dimensions may be due to the mismatched layers of its components.
(John D. Griffin, Michael W. Davidson, Sara Vetteth and Suchitra E.
Sebastian, Stanford)
Fisher said, “Han
Purple was first synthesized over 2500 years ago, but we have only
recently discovered how exotic its magnetic behavior is. It makes you
wonder what other materials are out there that we haven't yet even
begun to explore."
Featured image: Detail
of a mural from an Eastern Han tomb (25 – 220 AD) at Zhucun,
Luoyang, Henan province. The painting utilizes Han purple and Han
blue pigment (Wikipedia).
By April Holloway
- See more at:
http://www.ancient-origins.net/artifacts-ancient-technology/han-purple-2800-year-old-artificial-pigment-quantum-020105#sthash.Xu3Qy6up.dpuf
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