artworks

HALO 0.1 / 0.2 / 0.3

HALO 0.1 / 0.2 / 0.3, 2021

2018
x3 CG animations on square screens, silent
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

Three animations made with raw data from the ATLAS detector at CERN particle physics laboratory, Geneva, Switzerland. Removed from its scientific framework, the data becomes a physical form in its own right, something to explore as an artistic medium. Each animation offers a different perspective of the data, presented on custom made square screens.

Acquired for Audemars Piguet Collection, CERN collection and 2 private collections.

Parting the Waves

Parting the Waves, excerpt

2017
15:00
two channel HD moving image / three channel sound
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

Parting the Waves takes the visual language and method of quantum simulations, as a framework for exploring how science describes and attempts to harness the quantum realm.

Semiconductor have taken as a starting point simulated ‘surface plots’: realised as three co-ordinate graphs, they present mathematical computations of particle interactions, in a quantum system. The plots appear as varying degrees of undulating waveforms, created by the intensity of particles interactions being affected by distance, over time.  An angled hexagonal screen expands upon two moving image projections, becoming a graph-like object in the space, mimicking the system employed by scientists to present the simulations.

Sound drives the CGI work, generating and animating visual waveforms. Starting with Hertz: the standard unit for measuring frequency in cycles per second, specific tones have been selected which create harmonies and dissonances, to play with notions of phasing, shifting and interactions in a quantum system. As the tones shift, disturbing the system, so it responds visually, producing varying degrees of amplitude, wavelength and frequency which result in complex interference patterns. The colours are representative of the coding system scientists use, to identify specific parameters or patterns when model making.

Visual and audible noise is used to introduce the concept of coherence and de-coherence in a quantum system: the point at which a systems behaviour changes from that which can be explained by quantum mechanics to classical mechanics. Other details hint at mathematical tools and terms associated with the phenomena of quantum systems such as; superposition, entanglement and wave functions.

Quantum simulations are approximations of nature that are modelled and then compared to other models, to gradually build up a picture of the phenomena being studied. The layers of modelling are a language by which scientists can communicate their findings and get closer to nature. Semiconductor are interested in the extent to which these tools and scientific products bear the signature of a human hand. By making a work where you experience nature through the language that is made to study it, they want to question how our experiences of nature are mediated through science.

Parting the Waves was created through a FEAT (Future Emerging Art and Technology) Residency. FEAT is an initiative of eutema GmbH (AT), Stichting Waag Society (NL), and youris.com (BE). It has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 686527 (H2020-FETOPEN-2015-CSA).

Special thanks to:
Sabrina Maniscalco, University of Turku
Anton Buyskikh, University of Strathclyde, Scotland
Clarendon Laboratory, Oxford University, UK
Computational Nonlinear and Quantum Optics Group, Strathclyde University, Scotland
Turku Centre for Quantum Physics, University of Turku, Finland

Parting the Waves, solo Exhibition at Le Lieu Unique, Nantes, 2018. Photo: (c) Martin Argyroglo.

Parting the Waves, Gnration, Portugal, solo show, 2023

Where Shapes Come From

Where Shapes Come From (still), 2016

2016
9:00 / 9:50
two channel HD + single channel HD
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

Where Shapes Comes From is a moving image work which considers how science translates nature, on an atomic scale.

Filmed in the mineral sciences laboratory at the Smithsonian Museum of Natural History, a scientist goes about his daily work in rock and mineral preparatory labs; cutting up large meteorites and preparing mineral samples for scientific study. Accompanying this, mineralogist Jeff Post describes the coming together of atoms to form matter. He details formations of organised structures and patterns as if they are happening in real-time, in front of our eyes, transcending time and space.

Raw seismic data, collected from the land forming Mariana deep sea trench, has been converted directly into sound and controls computer generated animations, which are composited into the labs. They depict interpretations of visual scientific forms associated with atomic structures, and the technologies which capture them. Sitting alongside these animated formations are hand-made assemblages of discarded materials and other curiosities, which now bear human signatures. They unite in bringing a sense of playfulness and personal touch to the ordinarily rigorous framework of science.By combining these scientific processes, languages and products associated with matter formation in the context of the everyday, they become fantastical and strange encouraging us to consider how science translates nature and question our experiences of the physical world.

Filmed at the Mineral Sciences Laboratory, Smithsonian National Museum of Natural History, Washington D.C. during its 100th year.
Audio made from Mariana Trench seismic data courtesy of the IRIS (Incorporated Research Institutions for Seismology) Network.
Dialogue: Jeffrey E. Post, Geologist, Curator in Charge, Mineral Collection, Smithsonian National Museum of Natural History, Washington D.C., U.S.A.
Scientist: Jonathon Cooper

Supported by Arts Council England.
Co-commissioned by EDP Foundation and Phoenix Leicester.
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Earthworks

Documentation of Earthworks at SonarPLANTA, 2016

2016
5 channel computer generated animation with 4 channel surround sound
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

Watch a film where Semiconductor discuss the ideas and processes behind Earthworks here (made by Tom Thistlethwaite/Fabrica Brighton): https://www.youtube.com/watch?v=xkg38zms44Q&t=255s

Watch Semiconductor in Conversation with Laura McDermott, Creative Director of Attenborough Centre of the Creative Arts, on the occasion of Earthworks at Fabrica, solo exhibition, 2020

Earthworks is a five channel computer generated animation, which creates an immersive experience of the phenomena of landscape formation through the scientific and technological devices that are used to study it.  Masses of colourful layers are animated by the sound-scapes of earthquake, volcanic, glacial and human activity, recorded as seismic waves, which form spectacular fluctuating marbled waveforms.

Semiconductor have employed the scientific technique of Analogue Modelling, which uses layers of real world multi-coloured particles and application of pressure and motion to simulate tectonic and seismic forces. As the layers become deformed they reproduce the generation and evolution of landscapes in nature over thousands of years, revealing them to be in a constant state of flux.

Semiconductor have acquired seismic data captured as a result of land shifting and forming, from all over the world. There are four distinct sections to the work, each using a different set of seismic data. This includes; glacial, earthquake, volcano and human-made seismic activity captured at La Planta quarry, Spain, to represent the Anthropocene, a new geological era influenced by humans. The data has been translated to audio to form the soundtrack of the work, and simultaneously control the animation of the layers. The data as sound directly sculpts the image, re-animates the landscape, and reflects the symbiotic relationship between landscape formation and seismic vibrations. The seismic audio is rich and full of the intricacies of the dynamics of our planet in motion.

By using seismic data to control the masses of layers Semiconductor are not only playing with the idea that it is these forces that have shaped landscapes, but also that being an event that occurs beyond a human-time frame, landscape formation can only be experienced through scientific technological mediation of nature. It produces information about time, space and phenomena that no human consciousness could possibly have witnessed. It is as if we are watching hundreds of thousands of years played out in front of our eyes, enabling us to bear witness to events which ordinarily occur on geological time-frames.

By adopting the analogue modelling techniques, the work celebrates the revelatory capacities of modern science and technologies to create a kind of technological sublime, whilst simultaneously inviting viewers to consider the philosophical problems posed by such technologically mediated observations of imperceptible phenomena.

Earthworks is commissioned by SónarPLANTA
Produced by Advanced Music

Thanks to:
Fundació Sorigué
Sónar Festival/Advanced Music
Nigel Bax

University of Barcelona:
Dr Albert Casas Ponsati
Raul Lovera Carrasco
Mahjoub Himi Benomar
Dr. Josep Anton Muñoz
Oriol Ferrer

Cai Matthews
Jose Luis de Vicente
Salvador Rey Nagel

Seismic data courtesy of the Iris (Incorporated Research Institutions for Seismology) Consortium

Acquired for Sorigué Foundation Collection.

Earthworks, Sydney Biennale, 2018

 

Earthworks, Fabrica, Brighton, solo show, 2020. Photo: Fabrica/Tom Thistlethwaite

 

Film by Semiconductor documenting the making of Earthworks

Band 9

Band 9, Pump House Gallery, London, 2015. Photo: Pump House Gallery/Photo Eoin Carey

2015
installation of 9 light boxes / various sizes
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

Images Courtesy Pump House Gallery/Photo Eoin Carey

Band 9 is an installation that considers nature within the framework of science. Nine light boxes show scientific cloud data, which have been captured from space by a remote sensing satellite, orbiting the Earth. Using optical sensors it collects reflected light in various wavelengths of the electromagnetic spectrum. By focusing on very thin slices of these, scientists can pinpoint individual phenomena such as the band we see here, which is designed to reveal high-altitude clouds called Cirrus.

In this instance, scientists are not interested in the clouds themselves, but in removing their shadows and wispy texture from their data: whose presence obscures the real information they are trying to collect. Semiconductor have embraced these redundant images for their power to offer new ways of seeing a familiar place. Re-contextualised in this way and bearing the signatures of science, the images have become a kind of technological sublime.

What we see in the images is dictated by the capturing technology; the satellite scans in 115 mile wide swathes orbiting the earth from north to south and anything beyond the dedicated wavelengths is swallowed into a black void. The angle the light boxes are installed reflects the incline the data has been captured and archived at. By presenting the raw satellite data using techniques informed by the capturing technology Semiconductor are, exploring how technologies that are made to study nature, mediate our experiences and understanding of it.

Band 9 is commissioned by Pump House Gallery, London.
Data available from the U.S. Geological Survey.

Catching the Light

Catching the Light, video documentation, ArtScience Museum, Singapore, 2014

2014
multi-channel HD moving image with 6 metre wide Alucore screens
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

Catching the Light is a moving image installation which explores how science and technology frame our experiences of the natural world.

Created using visual data collected by space telescopes, the six metre wide projection is made up of thousands of images which have been assembled to create time-lapse sequences. By collaging these images of space together, Semiconductor have disrupted their original spatial relationships, to create new patterns and points of reference. They have, in effect, remapped the sky.

By collecting the data in its rawest form Semiconductor are able to present it as the telescope captured it. Ordinarily scientists would remove any noise, anomalies or signatures of the technology associated with the capturing process, but Semiconductor have embraced these artefacts, using them to remind us of how our perception of deep space is framed by the tools and processes of science.

The shape of the screens reflect the space observatories’ image capturing process: as they photograph chosen parts of the sky, the trail of images produce assorted shaped arrays, which are then used as points of reference in the data archives. Semiconductor have combined three of these arrays in their native format to make the screen composition. Used in this way they become portholes or windows into the universe, they also suggest that what we are seeing is only a part of a much larger picture.

The screens are installed away from the wall to create floating objects. The aluminium composite material used to fabricate them is commonly used in the production of scientific objects sent into space; as well as being light weight and strong it typically bears its honeycomb innards revealing its workings.  The matt black surface of the screen resonates with how scientists and engineers use the mattest of blacks in the production of space optics to absorb unwanted light.

The four channel sound runs along the width of the screen, shifting as events appear and disappear. Using the luminescence of the image to create and control sound, the visual events carve a sonic space out of a field of noise, producing a singing universe of harmonic tones, reminiscent of radio telescope data translated into audible frequencies.

Semiconductor are interested in how technology, made to study nature, mediates our experiences and understanding of it. Here, by employing the products of science they have created an interpretation of deep space framed by the technology that is made to capture it, leading us to question what we are experiencing.

Catching the Light is commissioned by ArtScience Museum at Marina Bay Sands in Singapore for Da Vinci: Shaping the Future exhibition, 2014-2015.
Data obtained from the Mikulski Archive for Space Telescopes (MAST) 
Programmer Julian Weaver

Currently fundraising for production of single channel version. If you’re interested in supporting this please get in in touch.

Some Part of Us Will Have Become

Some Part of Us Will Have Become (still), 2012

2012
03.00 minute TV edit + 05:45 minutes
HD single channel
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

Some Part of Us Will Have Become is the lament of a lone robot bearing witness to a human-made disaster. Made using internet streams captured during the Deepwater Horizon disaster Semiconductor have created a science fiction, narrated by the voice of a remotely operated vehicle. Whilst declaring hopelessness and despair it attempts in vain to quell the disaster, systematically arranging human-made debris. Overwhelming in enormity, the endeavour ends……without success…

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Some Part of Us Will Have Become is commissioned by Channel 4 and Arts Council England. Curated by Jacqui Davies and Mike Stubbs for Random Acts.
Text by Rowena Easton
Music by Hildur Gudnadottir. Published by Touch Music (MCPS).

The Shaping Grows

The Shaping Grows by Semiconductor for Swarovski, image David Levene. Installation view at the Design Museum, London, 2012

2012
03.00 minute loop
4 channel HD + 4 channel audio
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

The Shaping Grows is a computer generated animation of a subterranean cavern, brought to life through seismic data. Fantastical mineral crystals chaotically emerge and evolve according to the natural resonance of our shifting planet. These manifestations reveal atomic structures in their rawest form providing a window into the make-up of the physical world, where simple shapes come together to create intricate and complex formations. Here, Semiconductor draw a parallel between these basic molecular structures and the building blocks of the digital world, a world which has become the prism through which we increasingly experience reality.

The animation spans multiple time frames condensing geological events and processes through time-lapse techniques, allowing us to bear witness to mineral crystal growth patterns and the traces they leave behind. Mineral crystals can become consumed by larger formations or play host to wildly different structures, as physical conditions change over time and favour certain elemental and chemical reactions. Matter can also become trapped inside formations as they grow, creating ‘inclusions’. The resulting objects store the memory of their making and can be read to learn the story of their evolution and the conditions in which they grew.

Semiconductor have collected seismic data of recent earthquake activity from around the world and converted it into sound. This directly animates and controls the formations and provides a sound-scape of the Earth in a state of flux.

Commissioned by Swarovski for the exhibition Digital Crystal at the Design Museum, London.

20Hz

20Hz (excerpt), 2011

2011
05.00 minutes
HD + HD 3D single channel
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

20 Hz is a moving image work by Semiconductor created using data of the Earth’s magnetic field as a geo-magnetic storm occurs in the Earth’s upper atmosphere; we hear tweeting and rumbles caused by incoming solar wind, captured at the frequency of 20 Hertz. 

The data used was obtained from CARISMA (Canadian Array for Real-time Investigations of Magnetic Activity), a vast magnetometer network, which covers a large region of North America, from the Canadian Arctic down to Michigan. The devices collect the data from the Earth’s magnetosphere, where interactions occur between particles, magnetic fields and the solar wind. Some of the sounds recorded can be attributed to specific interactions occurring in the Earth’s upper atmosphere; the tweeting noises are a form of magnetic pulsation generated by various instabilities, the deep rumbles are from the high-speed solar wind flowing over the Earth’s magnetic field boundary and causing ripples to form. 

To create 20 Hz Semiconductor developed custom programming and 3-D manipulation techniques to  simultaneously realise audio and sculptural forms that are born directly from, and animated by, the data.  As different frequencies interact both visually and aurally, complex interference patterns emerge, revealing the data as three-dimensional and tangible, like some kind of natural phenomena is playing out before our eyes. 

With this work Semiconductor have chosen to reference imagery often employed in scientific visualisations – such as a black & white palette, a shallow depth of field – framing the data by the very tools of knowledge acquisition, drawing attention to a process of observation of natural phenomena itself. With this framing they seek to question how the anthropocentric view of events beyond human reach conditions our everyday experience of the natural world, highlighting the subjective nature of science. 

Through this work Semiconductor continue to explore their interest in that which is outside of what is humanly perceivable, confronting the viewer with information which is ordinarily outside of a human scale, both of time and space. Detached from its scientific framework, data becomes a material in its own form, creating a space for reflection upon our relationship to phenomena at the extremities of our perception and positioning the human subject as part of the wider ecosystem of our universe.

Audio Data courtesy of CARISMA, operated by the University of Alberta, funded by the Canadian Space Agency. Special thanks to Andy Kale.

20Hz is co-commissioned by Arts Santa Monica + Lighthouse. Supported by the British Council. Commissioned for the Invisible Fields Exhibition at Arts Santa Monica, Barcelona. 2011-2012.

Awarded the ‘Golden Gate Award for New Visions’ at San Francisco International Film Festival, 2012.
Awarded the ‘Art and Science Award’ at Ann Arbor Film Festival, 2012.
Awarded first prize at Quantum Shorts 2014, Centre for Quantum Technologies, University of Singapore.

Worlds in the Making

Worlds in the Making, FACT (Foundation for Art and Creative Technology), Liverpool, UK, 2011. Photo: Brian Slater

2011
23.00 minutes
3 channel HD
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

Worlds in the Making is an epic three channel moving image work that explores how we observe, experience and create an understanding of the physical origins of the world around us. By appropriating the tools and processes of volcanology to re-interpret the primordial landscapes of our volcanic planet, Semiconductor create a world slightly removed from the one we think we know, disrupting our every day assumptions of reality and questioning how science affects our experience of the natural world.

In the work the use of audio investigates our relationship with the physical, scientific and ephemeral nature of sound. Seismic data collected from beneath volcanoes and translated into audio evokes images of rocks crunching and grinding below the Earth and is used as a sculptural tool to generate elaborate CG animations of matter forming as mineral crystals. A scientist’s dialogue appears to guide us through extraordinary landscapes while Oren Ambarchi’s composition overwhelms as it brings an emotional connection to place.

The viewer is transported through dystopian landscapes, strangely exquisite animations, fantastical vistas, and natural phenomena to a world between science fiction and science fact.

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Commissioned by Jacqui Davies and FACT, Foundation for Art and Creative Technology.Supported by Arts Council England. Gulbenkian Galapagos Artists Fellowship. Smithsonian Artists Research Fellowship.

Credits:

Music by Oren Ambarchi – Published by Touch Music (MCPS)
Richard S. Fiske – Smithsonian National Museum of Natural History, Mineral Sciences Department: for his oratory skills, field notes and methodical tephra sorting.
Ellen Thurneau – Smithsonian National Museum of Natural History, Mineral Sciences Department.
William G. Melson – Smithsonian National Museum of Natural History, Mineral Sciences Department: for his audio recordings of Arenal Volcano, Costa Rica erupting.
Jonathan M. Lees, Professor of Geological Sciences, University of North Carolina at Chapel Hill, USA. For his seismic data collected at Tungurahua volcano, Ecuador which features in the work..
Gregory P. Waite, Assistant Professor of Geophysics, Michigan Technological University, USA. For his seismic data from Fuego Volcano, Guatemala and Mount St. Helens, Washington, USA.
Jorge Ordonez at Instituto Geofisico, Quito Ecuador
Adam and Miriam at Instituto Geofisico, Quito Ecuador
Global Volcanism Program, Smithsonian National Museum of Natural History
Dennis Geist, Professor of Geology at the University of Idaho, USA
Gorki Ruiz at Instituto Geofisico, Quito Ecuador
Instituto Geofisico Volcano Observatory, Tungurahua, Ecuador
Scientific paper: Liquid Sulfur at Volcan Azufre, Galapagos Islands by W.E. Colony and Bert E. Nordle, 1973. Charles Darwin Research Station Library, Santa Cruz, Galapagos, Ecuador.
Produced by Jacqui Davies.

preview of Worlds in the Making installation – to watch HD full screen double-click the image

 

Inferno Observatory

Inferno Observatory (preview), 2011

2011
various lengths
multi-channel SD
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

Inferno Observatory is a multi-channel moving image work that explores humankind’s complex relationship with natural phenomena. During a fellowship at the Mineral Sciences Laboratory in the Smithsonian National Museum of Natural History, Washington DC, Semiconductor unearthed a 16mm volcano film archive shot by volcanologists in the field, it reveals spectacular occurrences and curious, obsessive and sometimes absurd processes of observing and studying volcanoes.
In the work, these films have been re-contextualised to emphasise and examine three distinct relationships; the erupting volcano as all-powerful and humbling, the spectacle as people gather to watch in collective amazement, photograph and be photographed and the taming of the volcano through scientific probing, measurement and human endeavour.

Archive footage courtesy of Mineral Sciences Department, Smithsonian National Museum of Natural History, Washington DC. Commissioned by Jacqui Davies and FACT, Foundation for Art and Creative Technology. Supported by Arts Council England. Smithsonian Artists Research Fellowship.

Credits

Global Volcanism Program, Smithsonian National Museum of Natural History, Scientists films, film archive.
Music by Peeesseye.
Andreas Bick, sound recording of Mt. Yassur Volcano, Tanna Island, Vanuatu.
Professor Willy Aspinall, Earth Sciences, Bristol University, UK. For his audio recording ‘St Vincent 1979’.
Jonathan M. Lees, Professor of Geological Sciences, University of North Carolina at Chapel Hill, USA. For his seismic data collected at Tungurahua volcano.
Gregory P. Waite, Assistant Professor of Geophysics, Michigan Technological University, USA. For his seismic data from Fuego Volcano, Guatemala and Mount St. Helens, Washington, USA.
Produced by Jacqui Davies.

Inferno Observatory video documentation, FACT, Liverpool, UK, solo show, 2011

Crystallised

Crystallised (still), 2011

2011
various lengths
HD
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

Crystallised is a series of digital mineral crystal animations generated and animated by sound recordings of ice crystals. Each structure takes on a different form, growing and evolving in exquisite detail. Mineral crystals reveal atomic structures in their rawest form and provide a window into the make-up of the physical world, where simple shapes come together to create intricate and complex formations. With this series of works, Semiconductor draw a parallel between these basic molecular structures and the building blocks of the digital world, which has become the prism through which we increasingly experience reality. The animations suggest pre-ordained patterns and order that appear to underlie everything and lead us to question our experiences of the very fabric of our world.

Indefatigable

Indefatigable (still), 2010

2010
07.08 minutes
HD single channel
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

A team is at work dissecting what appears to be a simple bush. The examination is carried out with such conviction and reverence, towards something which is seemingly so mundane, that the whole process appears quite absurd.
The focus becomes the actions and techniques employed; through observation and simple measuring devices they document their findings, communicating with subtle gestures, with only a few numbers and mumbles exchanged.
Sitting somewhere between science documentary and fiction, this work reflects on how we as humans construct methods to learn about the physical world around us.

Filmed during a Gulbenkian Galapagos Artists Residency. Thanks to Charles Darwin Foundation, Jorges Luis Renteria, Claudio Crespo, Eliana Boontti and Veronica Toval.
Premiered at Venice Film Festival 1-11 September 2010

Heliocentric

Heliocentric (excerpt), 2010

2010
15:00 minutes
HD single + multi-channel versions
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

Heliocentric uses time-lapse photography and astronomical tracking to plot the sun’s trajectory across a series of landscapes. The entire environment is seen panning past the camera whilst the sun stays in the centre of each frame, enabling us to gauge the earth’s rotation and orbit around the sun. As the Suns light becomes disrupted by passing weather conditions and the environment through which we encounter it, it audibly plays them as if it were a stylus.

It is usually all but impossible to visualize how the earth moves around the sun, even though we know it to be true. Instead we ‘see’ the sun move around us. The ‘heliocentric’ view of the universe was debated from the third century BC onwards and remained contentious into modern times.

Shooting into the sun creates many intriguing artifacts; lens flares and glare spill over the landscape, white outs burn the image, and colours bleed into one, creating aureoles. The power of the sun still exceeds what both the human eye and the artificial eye of the camera can bear. And whilst our knowledge of the universe is ever-growing, we can only encounter and know it from our own humble vantage point.

Heliocentric is co-commissioned by AV Festival + Northern Lights Film Festival, UK.

 

 

Black Rain

Black Rain (excerpt), 2009

2009
03:00 minutes / 17:00 minute loop
Single channel + installation
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

Black Rain is sourced from images collected by the twin satellite, solar mission, STEREO. Here we see the HI (Heliospheric Imager) visual data as it tracks interplanetary space for solar wind and CME’s (coronal mass ejections) heading towards Earth.

Working with STEREO scientists, Semiconductor collected all the HI image data to date, revealing the journey of the satellites from their initial orientation, to their current tracing of the Earth’s orbit around the Sun. Solar wind, CME’s, passing planets and comets orbiting the sun can be seen as background stars and the milky way pass by.

As in Semiconductor’s previous work ‘Brilliant Noise’ which looked into the sun, they work with raw scientific satellite data which has not yet been cleaned and processed for public consumption. By embracing the artefacts  calibration and phenomena of the capturing process we are reminded of the presence of the human observer who endeavours to extend our perceptions and knowledge through technological innovation.

Many thanks to: Chris Davis and Steve Crothers at the STFC Rutherford Appleton Laboratory, UK + Stuart Bale and Steven Christe at Space Sciences Lab UC Berkeley, USA

Documentation of Black Rain at Earth: Art of a changing World, Royal Academy, London 2010

Out of the Light

Out of the Light (video excerpt), 2008

2008
10:00 minutes
HD single channel floor projection + expanded version
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

Over time, celestial patterns can reveal themselves through the play of light and shadow on the world around us. Out of the Light is a CGI time based sculpture, which recreates these shadow phenomena to explore how we can make sense of the world through observation; we experience a solar eclipse as observed through the branches of a tree, the rhythm of a city as its shadows phase from days to months to years and the transit of Venus observed through the construction of simple human made tools. Viewing these events with the unaided eye allows for anomalies in the quality and nature of light which are played upon here, to explore our perceptual sensitivities.

Commissioned by Arcadi, Paris
Solar audio courtesy of Alexander G.Kosovichev at Stanford University.
Installation photograph; Wild Sky at Edith Russ House For Media Art, Germany. Courtesy Franz Wamhof

Magnetic Movie

Magnetic Movie, 2007

2007
04:47 minutes
HD single channel
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

The secret lives of invisible magnetic fields are revealed as chaotic ever-changing geometries . All action takes place around NASA’s Space Sciences Laboratories, UC Berkeley, to recordings of space scientists describing their discoveries. Actual VLF audio recordings control the evolution of the fields as they delve into our inaudible surroundings, revealing recurrent ‘whistlers’ produced by fleeting electrons . Are we observing a series of scientific experiments, the universe in flux, or a documentary of a fictional world?

An Animate Projects commission for Channel 4 in association with Arts Council England.
Shot at the NASA Space Sciences Laboratory, UC Berkeley, California, USA.

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Many thanks to the following people:
Bill Abbett, David Brain, Bob Lin, Janet Luhmann, Stephen Mende, Forrest Mozer, Ilan Roth and Paul Thompson.
Also big thanks to the CSE team at the Silver Space Sciences Lab. UC Berkeley, USA.
VLF Recordings: Stephen P.McGreevy

Awarded the Nature ‘Scientific Merit Award’ by Imagine Science Film Festival, New York, 2009.
Purchased by the Hirshhorn Museum, Washington for the permanent collection, 2008.
Awarded ‘Best Film at Cutting Edge’ at the British Animation Awards, 2008.
Special Mention, ‘Best International Experimental Short’ at Leeds International Film Festival, 2008. Awarded ‘Best Experimental Film’ at Tirana International Film Festival, 2007.

Do You Think Science…

Do You Think Science…(short edit), 2006

2006
12:15 minutes + 06:16 minutes
SD single channel
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

By asking a group of space physicists the unanswerable Semiconductor reveal the hidden motivations driving scientists to the outer limits of human knowledge. In an attempt to find meaning within the question, they open a Pandora’s Box of limitations within science itself, revealing their own philosophical confines. Issues of faith, medicine and the laws of matter are raised to illustrate the infinitely complex universe we live in.

Made during an Arts Council England International Artists Fellowship Programme: Art and Space Science at the UC Berkeley Space Sciences Lab., University of California, U.S.A. In partnership with the Leonardo network and NASA.

Thanks to the following scientists at The Space Sciences Laboratory, UC Berkeley, California, USA:
Stuart Bale, David Brain, John Bonnell, Nahide Craig, Janet Luhmann, Bryan Mendez, Forrest Mozer, Stephen Mende, Ilan Roth, Chris Snead, Charles Townes and Andrew Westphal.

Brilliant Noise

Brilliant Noise (excerpt), 2006

2006
various lengths
SD / HD / single channel + multi-channel versions
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

Brilliant Noise takes us into the data vaults of solar astronomy. After sifting through hundreds of thousands of computer files, made accessible via open access archives, Semiconductor have brought together some of the sun’s finest unseen moments. These images have been kept in their most raw form, revealing the energetic particles and solar wind as a rain of white noise. This grainy black and white quality is routinely cleaned up by NASA, hiding the processes and mechanics in action behind the capturing procedure. Most of the imagery has been collected as single snapshots  by ground based observatories and satellites, they are then reorganised into their spectral groups to create time-lapse sequences. The soundtrack highlights the hidden forces at play upon the solar surface, by directly translating areas of intensity within the image brightness into layers of audio manipulation and radio frequencies.

Thanks to the following solar observatories whose data archives were used in the making of this film: Mount Wilson Observatory UCLA, Lasco/SOHO Naval Research Laboratory, TRACE/LMSAL, Big Bear Solar Observatory/NJIT, SST/Royal Swedish Academy of Sciences, Gong/National Solar Observatory/AURA/NSF Thanks also to: Steven Christie, Iain Hannah, the CSE team and all at the space sciences Lab. UC Berkeley.

Brilliant Noise was made during an Arts Council England International Artists Fellowship at the NASA Space Sciences Laboratory, UC Berkeley, California, USA.

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Awarded second prize by the Science Film Festival, a Coruna Spain. 2008.
Awarded second prize at Onion City Experimental Film and Video Festival 2006.
Awarded Best Video at Experimental Film and Video Festival, Seoul, Korea 2006.

Acquired by Centre Pompidou Collection, Paris.

 

All the Time in the World

All the Time in the World (still), 2005

2005
04:40
SD single channel / surround sound
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

Presented as a fictional documentary, All the Time in The World sees the millions of years that have shaped and formed the land, played out at the speed of sound.
Semiconductor have reanimated Northumbria ‘s epic landscape using data recordings from the archives at the British Geological Survey in Edinburgh . This data of local and distant seismic disturbances has been converted to sound and used to sculpt and bring to life the constantly shifting geography around us.
We follow the motion of the sound as it travels from the coast at Cocklawburn to the hills of The Cheviots, transforming the land. We travel to Abb’s Head and witness Earth Lights, made visible by the seismic sounds. These phenomena are said to be the result of tectonic movement in the strata below us. Flashes of light and electricity are produced as movement squeezes mineral crystals together, displaying luminous objects whose motion coincides with the direction of ruptures within the earth.

Filmed and animated between October and March 2005 during a fellowship at Berwick Gymnasium Art Gallery, Berwick-Upon-Tweed, UK. Supported by English Heritage and Arts Council England North East

Linear

Linear (still), 2001

2001
05:35
SD single channel
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

A C.G.I. documentary about a Hi-Fi Rise somewhere in the 21st Century. Portraying the story of T.O.E. (Theory of Everything). String, a confused citizen within a quaking urban universe.

Selected screenings and installations:

Other Cinema, San Francisco,USA, November 2005
UC Davis, California, USA, November 2005
Pacific Film Archive, Berkeley, USA , September 2005
Festival Nemo, Paris, France, April 2005
Museum of Contemporary Art Lyon, Pi Days, May 2005
Group show: The Cube; Esapce De Creation Numerique,Paris France
20 March – 20 July 2005
The British Council Jerusalem , Israel: 3rd June 2004
Sound Films 1999-2003, ICA Digital Suite, London, September 2003
The Lux Open, Royal College of Art : London April 2003
Sonar Festvial, Barcelona, June 2002
Ruido Digital, Belo Horizonte , Brazil, December 2002

Earthquake Films

Earthquake3
Earthquake Films (still), 2000

2000
09:35
SD single channel
A Semiconductor work by Ruth Jarman and Joe Gerhardt.

Songlines sung by an earthquake. This was an early live experiment performed at one of Semiconductors’ E.M.I. (Electro Magnetic Interference) events in Brighton, 2000. It also formed part of a DVD-Rom section in Hi-Fi Rise, Semiconductors’ first DVD release in 2001.