Budker Institute of Nuclear Physics Director Pavel Logachev talks to journalists at the room of the linear accelerator for the Siberian Ring Source of Photons (SKIF) center for collective use which is under construction near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830229
An employee of the Budker Institute of Nuclear Physics works at the room of the linear accelerator for the Siberian Ring Source of Photons (SKIF) center for collective use which is under construction near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830228
Journalists explore the linear accelerator for the Siberian Ring Source of Photons (SKIF) center for collective use which is under construction near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830227
Journalists explore the linear accelerator for the Siberian Ring Source of Photons (SKIF) center for collective use which is under construction near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830226
An employee explores a booster synchrotron at the Siberian Ring Source of Photons (SKIF) center for collective use which is under construction near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830225
Journalists explore a booster synchrotron at the Siberian Ring Source of Photons (SKIF) center for collective use which is under construction near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830224
A view shows a booster synchrotron at the Siberian Ring Source of Photons (SKIF) center for collective use which is under construction near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830222
Employees explore a booster synchrotron at the Siberian Ring Source of Photons (SKIF) center for collective use which is under construction near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830221
A view shows a booster synchrotron at the Siberian Ring Source of Photons (SKIF) center for collective use which is under construction near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830220
Employees explore a booster synchrotron at the Siberian Ring Source of Photons (SKIF) center for collective use which is under construction near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830219
A view shows the room of the linear accelerator for the Siberian Ring Source of Photons (SKIF) center for collective use which is under construction near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830218
An employee of the Budker Institute of Nuclear Physics works at the room of the linear accelerator for the Siberian Ring Source of Photons (SKIF) center for collective use which is under construction near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830217
Budker Institute of Nuclear Physics Director Pavel Logachev at the klystron hall of the Siberian Ring Source of Photons (SKIF) center for collective use which is under construction near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830216
An employee of the Budker Institute of Nuclear Physics works at the room of the linear accelerator for the Siberian Ring Source of Photons (SKIF) center for collective use which is under construction near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830215
Budker Institute of Nuclear Physics Director Pavel Logachev talks to journalists at a control room of the linear accelerator for the Siberian Ring Source of Photons (SKIF) center for collective use which is under construction near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830207
Workers are seen in a tunnel where equipment connecting small size booster synchrotron with the big one at the Siberian Ring Source of Photons (SKIF) center for collective use which is under construction near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830206
An employee of the Budker Institute of Nuclear Physics works at a control room of the linear accelerator for the Siberian Ring Source of Photons (SKIF) center for collective use which is under construction near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830204
Employees of the Budker Institute of Nuclear Physics work at a control room of the linear accelerator for the Siberian Ring Source of Photons (SKIF) center for collective use which is under construction near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830203
An employee of the Budker Institute of Nuclear Physics works at a control room of the linear accelerator for the Siberian Ring Source of Photons (SKIF) center for collective use which is under construction near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830202
An employee of the Budker Institute of Nuclear Physics works at a control room of the linear accelerator for the Siberian Ring Source of Photons (SKIF) center for collective use which is under construction near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830201
A view shows the construction site of facilities of the Siberian Ring Source of Photons (SKIF) center for collective use near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830200
An aerial view shows the construction site of facilities of the Siberian Ring Source of Photons (SKIF) center for collective use near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830199
An aerial view shows the construction site of facilities of the Siberian Ring Source of Photons (SKIF) center for collective use near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830197
An aerial view shows the construction site of facilities of the Siberian Ring Source of Photons (SKIF) center for collective use near the Koltsovo science town in Novosibirsk region, Russia. SKIF will consist of 30 experimental stations, including 14 to use the emission from plug-in devices and 16 will be placed on beams of bending magnets. The stations will aim at deciphering biopolymers' structure, mechanisms of functioning of living organisms, the transmission of hereditary information, and the mechanism of action of drugs, as well as at creating new materials, studying rapid processes, etc. SKIF will be the world's first generation 4+ source of synchronized emission operating in the 3 GeV energy range.18.12.2024#8830196
