- Latest available (Revised)
- Point in Time (12/03/2008)
- Original (As adopted by EU)
Council Regulation (EC) No 423/2007 of 19 April 2007 concerning restrictive measures against Iran (repealed)
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Version Superseded: 24/06/2008
Point in time view as at 12/03/2008.
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Textual Amendments
Where possible, the items in this Annex are defined by reference to the list of dual-use items set out in Annex I to Council Regulation (EC) No 1334/2000, as amended by Council Regulation (EC) No 1183/2007 (1) .
The descriptions of the items in this Annex are often, but not always, identical or similar to descriptions of the items set out in the list of dual-use items. Each description is based as much as possible on that of the first dual-use item referred to. Where there are differences between the two descriptions, the description of the goods or technology found in this Annex shall be decisive. For the sake of clarity, an asterisk indicates that a description is based on the description of the dual-use item referred to, but contains different values for the technical parameters used or omits or adds specific elements.
If only part of the scope of the dual-use item referred to is covered by an entry in this Annex, the reference number taken from the list of dual-use items is preceded by ‘ ex ’.
For the definitions of terms between ‘ double quotation marks ’ please refer to Regulation (EC) No 1183/2007.
This Annex does not include goods and technology (including software) included in the Common Military List of the European Union (2) . In accordance with Article 1(1)(c) of Common Position 2007/140/CFSP (3) , the Member States of the European Union will prohibit the direct or indirect supply, sale or transfer of such goods and technology to Iran.
N.B.: In judging whether the prohibited component or components are to be considered the principal element, it is necessary to weigh the factors of quantity, value and technological know-how involved and other special circumstances which might establish the prohibited component or components as the principal element of the goods being procured. U.K.
(To be read in conjunction with Section I.0.B.)
The sale, supply, transfer or export of ‘ technology ’ directly associated with any goods whose sale, supply, transfer or export is prohibited in Section I.0.A is prohibited according to the provisions of Category I.0.
‘ Technology ’ for the ‘ development ’ , ‘ production ’ or ‘ use ’ of goods under prohibition remains under prohibition even when applicable to non-prohibited goods.
The approval of goods for export granted in accordance with Article 6 of Regulation (EC) No 423/2007, also authorizes the export to the same end-user of the minimum ‘ technology ’ required for the installation, operation, maintenance and repair of the goods.
Prohibitions on ‘ technology ’ transfer do not apply to information ‘ in the public domain ’ or to ‘ basic scientific research ’ .
(To be read in conjunction with Sections I.1B, I.2B, I.3B, I.4B, I.5B, I.6B, I.7B and I.9B.)
The sale, supply, transfer or export of ‘ technology ’ which is ‘ required ’ for the ‘ development ’ , ‘ production ’ or ‘ use ’ of goods whose sale, supply, transfer or export is prohibited in Categories I.1 to I.9, is prohibited according to the provisions of Categories I.1 to I.9.
‘ Technology ’ ‘ required ’ for the ‘ development ’ , ‘ production ’ or ‘ use ’ of goods under prohibition remains under prohibition even when applicable to non-prohibited goods.
Prohibitions do not apply to that ‘ technology ’ which is the minimum necessary for the installation, operation, maintenance (checking) and repair of those goods which are not prohibited or whose export has been authorised in accordance with Regulation (EC) No 423/2007.
Prohibitions on ‘ technology ’ transfer do not apply to information ‘ in the public domain ’ , to ‘ basic scientific research ’ or to the minimum necessary information for patent applications.
(This note overrides any prohibition within sections I.0B, I.1B, I.2B, I.3B, I.4B, I.5B, I.6B, I.7B and I.9B.)
Categories I.0 to I.9 of this list do not prohibit ‘ software ’ which is either:
Generally available to the public by being:
Sold from stock at retail selling points, without restriction, by means of:
Over-the-counter transactions;
Mail order transactions;
Electronic transactions; or
Telephone order transactions; and
Designed for installation by the user without further substantial support by the supplier; or
‘ In the public domain ’ .
No | Relevant item(s) from Annex to Regulation (EC) No 1183/2007 | Description |
---|---|---|
I.0B.001 | 0D001 | ‘ Software ’ specially designed or modified for the ‘ development ’ , ‘ production ’ or ‘ use ’ of goods specified in Section I.0A. |
I.0B.002 | 0E001 | ‘ Technology ’ according to the Nuclear Technology Note for the ‘ development ’ , ‘ production ’ or ‘ use ’ of goods specified in Section I.0A. |
No | Relevant item(s) from Annex to Regulation (EC) No 1183/2007 | Description |
---|---|---|
I.1B.001 | ex 1D001 | ‘ Software ’ specially designed or modified for the ‘ development ’ , ‘ production ’ or ‘ use ’ of equipment specified in I.1A.006. |
I.1B.002 | 1D101 | ‘ Software ’ specially designed or modified for the ‘ use ’ of goods specified in I.1A.007 to I.1A.009, or I.1A.011 to I.1A.013. |
I.1B.003 | 1D103 | ‘ Software ’ specially designed for analysis of reduced observables such as radar reflectivity, ultraviolet/infrared signatures and acoustic signatures. |
I.1B.004 | 1D201 | ‘ Software ’ specially designed for the ‘ use ’ of goods specified in I.1A.014. |
I.1B.005 | 1E001 | ‘ Technology ’ according to the General Technology Note for the ‘ development ’ or ‘ production ’ of equipment or materials specified in I.1A.006 to I.1A.051. |
I.1B.006 | 1E101 | ‘ Technology ’ according to the General Technology Note for the ‘ use ’ of goods specified in I.1A.001, I.1A.006 to I.1A.013, I.1A.026, I.1A.028, I.1A.029 to I.1A.032, I.1B.002 or I.1B.003. |
I.1B.007 | ex 1E102 | ‘ Technology ’ according to the General Technology Note for the ‘ development ’ of ‘ software ’ specified in I.1B.001 to I.1B.003. |
I.1B.008 | 1E103 | ‘ Technology ’ for the regulation of temperature, pressure or atmosphere in autoclaves or hydroclaves, when used for the ‘ production ’ of ‘ composites ’ or partially processed ‘ composites ’ . |
I.1B.009 | 1E104 | ‘ Technology ’ relating to the ‘ production ’ of pyrolytically derived materials formed on a mould, mandrel or other substrate from precursor gases which decompose in the 1 573 K ( 1 300 °C) to 3 173 K ( 2 900 °C) temperature range at pressures of 130 Pa to 20 kPa. Note: I.1B.009 includes ‘technology’ for the composition of precursor gases, flow-rates and process control schedules and parameters. |
I.1B.010 | ex 1E201 | ‘ Technology ’ according to the General Technology Note for the ‘ use ’ of goods specified in I.1A.002 to I.1A.005, I.1A.014 to I.1A.023, I.1A.024.b., I.1A.033 to I.1A.051, or I.1B.004. |
I.1B.011 | 1E202 | ‘ Technology ’ according to the General Technology Note for the ‘ development ’ or ‘ production ’ of goods specified in I.1A.002 to I.1A.005. |
I.1B.012 | 1E203 | ‘ Technology ’ according to the General Technology Note for the ‘ development ’ of ‘ software ’ specified in I.1B.004. |
a Manufacturers calculating positioning accuracy in accordance with ISO 230/2 (1997) should consult the competent authorities of the Member State in which they are established. | ||
No | Relevant item(s) from Annex to Regulation (EC) No 1183/2007 | Description |
---|---|---|
I.2A.001 | ex 2A001* | Anti-friction bearings and bearing systems, as follows, and components therefor: Note: I.2A.001 does not prohibit balls with tolerances specified by the manufacturer in accordance with ISO 3290 as grade 5 or worse. Radial ball bearings having all tolerances specified by the manufacturer in accordance with ISO 492 Tolerance Class 2 (or ANSI/ABMA Std 20 Tolerance Class ABEC-9 or RBEC-9, or other national equivalents), or better and having all of the following characteristics: a. An inner ring bore diameter between 12 and 50 mm; b. An outer ring outside diameter between 25 and 100 mm; and c. A width between 10 and 20 mm. |
I.2A.002 | 2A225 | Crucibles made of materials resistant to liquid actinide metals, as follows: a. Crucibles having both of the following characteristics: 1. A volume of between 150 cm 3 and 8 000 cm 3 ; and 2. Made of or coated with any of the following materials, having a purity of 98 % or greater by weight: a. Calcium fluoride (CaF 2 ); b. Calcium zirconate (metazirconate) (CaZrO 3 ); c. Cerium sulphide (Ce 2 S 3 ); d. Erbium oxide (erbia) (Er 2 O 3 ); e. Hafnium oxide (hafnia) (HfO 2 ); f. Magnesium oxide (MgO); g. Nitrided niobium-titanium-tungsten alloy (approximately 50 % Nb, 30 % Ti, 20 % W); h. Yttrium oxide (yttria) (Y 2 O 3 ); or i. Zirconium oxide (zirconia) (ZrO 2 ); b. Crucibles having both of the following characteristics: 1. A volume of between 50 cm 3 and 2 000 cm 3 ; and 2. Made of or lined with tantalum, having a purity of 99,9 % or greater by weight; c. Crucibles having all of the following characteristics: 1. A volume of between 50 cm 3 and 2 000 cm 3 ; 2. Made of or lined with tantalum, having a purity of 98 % or greater by weight; and 3. Coated with tantalum carbide, nitride, boride, or any combination thereof |
I.2A.003 | 2A226 | Valves having all of the following characteristics: a. A ‘ nominal size ’ of 5 mm or greater; b. Having a bellows seal; and c. Wholly made of or lined with aluminium, aluminium alloy, nickel, or nickel alloy containing more than 60 % nickel by weight. Technical Notes:For valves with different inlet and outlet diameters, the ‘ nominal size ’ in I.2A.003 refers to the smallest diameter |
I.2A.004 | ex 2B001.a*, 2B001.d | Machine tools and any combination thereof, for removing (or cutting) metals, ceramics or ‘ composites ’ , which, according to the manufacturer’s technical specification, can be equipped with electronic devices for ‘ numerical control ’ , and specially designed components as follows: N.B.: See also I.2A.016. Note 1: I.2A.004 does not prohibit special purpose machine tools limited to the manufacture of gears. Note 2: I.2A.004 does not prohibit special purpose machine tools limited to the manufacture of any of the following parts: a. Crankshafts or camshafts; b. Tools or cutters; c. Extruder worms; Note 3: A machine tool having at least two of the three turning, milling or grinding capabilities (e.g., a turning machine with milling capability), must be evaluated against each applicable entry I.2A.004.a and I.2A.016.
|
I.2A.005 | ex 2B006.b* | Dimensional inspection or measuring systems, equipment and ‘ electronic assemblies ’ , as follows:
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I.2A.006 | 2B007.c | ‘ Robots ’ having the following characteristics and specially designed controllers and ‘ end-effectors ’ therefor: N.B.: See also I.2A.019. c. Specially designed or rated as radiation-hardened to withstand a total radiation dose greater than 5 × 10 3 Gy (silicon) without operational degradation. Technical Notes:The term Gy(silicon) refers to the energy in Joules per kilogram absorbed by an unshielded silicon sample when exposed to ionising radiation. |
I.2A.007 | 2B104 | ‘ Isostatic presses ’ having all of the following: N.B.: See also I.2A.017. a. Maximum working pressure of 69 MPa or greater; b. Designed to achieve and maintain a controlled thermal environment of 873 K (600 °C) or greater; and c. Possessing a chamber cavity with an inside diameter of 254 mm or greater. |
I.2A.008 | 2B105 | Chemical vapour deposition (CVD) furnaces designed or modified for the densification of carbon-carbon composites. |
I.2A.009 | 2B109 | Flow-forming machines and specially designed components as follows: N.B.: See also I.2A.020. a. Flow-forming machines having all of the following: 1. According to the manufacturer's technical specification, can be equipped with ‘ numerical control ’ units or a computer control, even when not equipped with such units; and 2. With more than two axes which can be coordinated simultaneously for ‘ contouring control ’ . b. Specially designed components for flow-forming machines specified in I.2A.009.a. Note: I.2A.009 does not prohibit machines that are not usable in the production of propulsion components and equipment (e.g. motor cases) for ‘missiles’. Technical Notes:Machines combining the function of spin-forming and flow-forming are for the purpose of I.2A.009 regarded as flow-forming machines |
I.2A.010 | 2B116 | Vibration test systems, equipment and components therefor, as follows: a. Vibration test systems employing feedback or closed loop techniques and incorporating a digital controller, capable of vibrating a system at an acceleration equal to or greater than 10 g rms between 20 Hz and 2 kHz and imparting forces equal to or greater than 50 kN, measured ‘ bare table ’ ; b. Digital controllers, combined with specially designed vibration test software, with a ‘ real-time bandwidth ’ greater than 5 kHz designed for use with vibration test systems specified in I.2A.010.a.; c. Vibration thrusters (shaker units), with or without associated amplifiers, capable of imparting a force equal to or greater than 50 kN, measured ‘ bare table ’ , and usable in vibration test systems specified in I.2A.010.a.; d. Test piece support structures and electronic units designed to combine multiple shaker units in a system capable of providing an effective combined force equal to or greater than 50 kN, measured ‘ bare table ’ , and usable in vibration systems specified in I.2A.010.a. Technical Notes:In I.2A.010, ‘ bare table ’ means a flat table, or surface, with no fixture or fittings |
I.2A.011 | 2B117 | Equipment and process controls, other than those specified in I.2A.007 or I.2A.008, designed or modified for densification and pyrolysis of structural composite rocket nozzles and reentry vehicle nose tips. |
I.2A.012 | 2B119 | Balancing machines and related equipment, as follows: N.B.: See also I.2A.021. a. Balancing machines having all the following characteristics: 1. Not capable of balancing rotors/assemblies having a mass greater than 3 kg; 2. Capable of balancing rotors/assemblies at speeds greater than 12 500 rpm; 3. Capable of correcting unbalance in two planes or more; and 4. Capable of balancing to a residual specific unbalance of 0,2 g mm per kg of rotor mass; Note: I.2A.012.a. does not prohibit balancing machines designed or modified for dental or other medical equipment. |
I.2A.013 | 2B120 | Motion simulators or rate tables having all of the following characteristics: a. Two axes or more; b. Slip rings capable of transmitting electrical power and/or signal information; and c. Having any of the following characteristics: 1. For any single axis having all of the following: a. Capable of rates of 400 degrees/s or more, or 30 degrees/s or less; and b. A rate resolution equal to or less than 6 degrees/s and an accuracy equal to or less than 0,6 degrees/s; 2. Having a worst-case rate stability equal to or better (less) than plus or minus 0,05 % averaged over 10 degrees or more; or 3. A positioning accuracy equal to or better than 5 arc second. Note: I.2A.013 does not prohibit rotary tables designed or modified for machine tools or for medical equipment. |
I.2A.014 | 2B121 | Positioning tables (equipment capable of precise rotary positioning in any axes), other than those specified in I.2A.013, having all the following characteristics: a. Two axes or more; and b. A positioning accuracy equal to or better than 5 arc second. Note: I.2A.014 does not prohibit rotary tables designed or modified for machine tools or for medical equipment. |
I.2A.015 | 2B122 | Centrifuges capable of imparting accelerations above 100 g and having slip rings capable of transmitting electrical power and signal information. |
I.2A.016 | 2B201, 2B001.b.2 and 2B001.c.2 | Machine tools and any combination thereof, as follows, for removing or cutting metals, ceramics or ‘ composites ’ , which, according to the manufacturer’s technical specification, can be equipped with electronic devices for simultaneous ‘ contouring control ’ in two or more axes: Note: For ‘numerical control’ units prohibited because of their associated ‘software’ see I.2B.002. a. Machine tools for milling, having any of the following characteristics: 1. Positioning accuracies with ‘all compensations available’ equal to or less (better) than 6 μm according to ISO 230/2 (1988) a or national equivalents along any linear axis; 2. Two or more contouring rotary axes; or 3. Five or more axes which can be coordinated simultaneously for ‘ contouring control ’ . Note: I.2A.016.a. does not prohibit milling machines having the following characteristics: a. X-axis travel greater than 2 m; and b. Overall positioning accuracy on the x-axis more (worse) than 30 μm. b. Machine tools for grinding, having any of the following characteristics: 1. Positioning accuracies with ‘all compensations available’ equal to or less (better) than 4 μm according to ISO 230/2 (1988) a or national equivalents along any linear axis; 2. Two or more contouring rotary axes; or 3. Five or more axes which can be coordinated simultaneously for ‘ contouring control ’ . Note: I.2A.016.b. does not prohibit the following grinding machines: a. Cylindrical external, internal, and external-internal grinding machines having all of the following characteristics: 1. Limited to a maximum workpiece capacity of 150 mm outside diameter or length; and 2. Axes limited to x, z and c; b. Jig grinders that do not have a z-axis or a w-axis with an overall positioning accuracy less (better) than 4 μm according to ISO 230/2 (1988) a or national equivalents. Note 1: I.2A.016 does not prohibit special purpose machine tools limited to the manufacture of any of the following parts: a. Gears; b. Crankshafts or camshafts; c. Tools or cutters; d. Extruder worms. Note 2: A machine tool having at least two of the three turning, milling or grinding capabilities (e.g., a turning machine with milling capability), must be evaluated against each applicable entry I.2A.004.a. or I.2A.016.a. or b. |
I.2A.017 | 2B204 | ‘ Isostatic presses ’ , other than those specified in I.2A.007, and related equipment, as follows: a. ‘ Isostatic presses ’ having both of the following characteristics: 1. Capable of achieving a maximum working pressure of 69 MPa or greater; and 2. A chamber cavity with an inside diameter in excess of 152 mm; b. Dies, moulds and controls, specially designed for ‘ isostatic presses ’ specified in I.2A.017.a. Technical Notes:In I.2A.017 the inside chamber dimension is that of the chamber in which both the working temperature and the working pressure are achieved and does not include fixtures. That dimension will be the smaller of either the inside diameter of the pressure chamber or the inside diameter of the insulated furnace chamber, depending on which of the two chambers is located inside the other. |
I.2A.018 | 2B206 | Dimensional inspection machines, instruments or systems, other than those specified in I.2A.005, as follows: a. Computer controlled or numerically controlled dimensional inspection machines having both of the following characteristics: 1. Two or more axes; and 2. A one-dimensional length ‘ measurement uncertainty ’ equal to or less (better) than (1,25 + L/ 1 000 ) μm tested with a probe of an ‘ accuracy ’ of less (better) than 0,2 μm (L is the measured length in millimetres) (Ref.: VDI/VDE 2617 Parts 1 and 2); b. Systems for simultaneous linear-angular inspection of hemishells, having both of the following characteristics: 1. ‘ Measurement uncertainty ’ along any linear axis equal to or less (better) than 3,5 μm per 5 mm; and 2. ‘ Angular position deviation ’ equal to or less than 0,02 °. Note 1: Machine tools that can be used as measuring machines are prohibited if they meet or exceed the criteria specified for the machine tool function or the measuring machine function. Note 2: A machine specified in I.2A.018 is prohibited if it exceeds the prohibition threshold anywhere within its operating range. Technical Notes:1. The probe used in determining the measurement uncertainty of a dimensional inspection system shall be described in VDI/VDE 2617 parts 2, 3 and 4.2. All parameters of measurement values in I.2A.018 represent plus/minus i.e., not total band. |
I.2A.019 | 2B207 | ‘ Robots ’ , ‘ end-effectors ’ and control units, other than those specified in I.2A.006, as follows: a. ‘ Robots ’ or ‘ end-effectors ’ specially designed to comply with national safety standards applicable to handling high-explosives (for example, meeting electrical code ratings for high-explosives); b. Control units specially designed for any of the ‘ robots ’ or ‘ end-effectors ’ specified in I.2A.019.a. |
I.2A.020 | 2B209 | Flow forming machines, spin forming machines capable of flow forming functions, other than those specified in I.2A.009, and mandrels, as follows: a. Machines having both of the following characteristics: 1. Three or more rollers (active or guiding); and 2. Which, according to the manufacturer's technical specification, can be equipped with ‘ numerical control ’ units or a computer control; b. Rotor-forming mandrels designed to form cylindrical rotors of inside diameter between 75 mm and 400 mm. Note: I.2A.020.a. includes machines which have only a single roller designed to deform metal plus two auxiliary rollers which support the mandrel, but do not participate directly in the deformation process. |
I.2A.021 | 2B219 | Centrifugal multiplane balancing machines, fixed or portable, horizontal or vertical, as follows: a. Centrifugal balancing machines designed for balancing flexible rotors having a length of 600 mm or more and having all of the following characteristics: 1. Swing or journal diameter greater than 75 mm; 2. Mass capability of from 0,9 to 23 kg; and 3. Capable of balancing speed of revolution greater than 5 000 r.p.m.; b. Centrifugal balancing machines designed for balancing hollow cylindrical rotor components and having all of the following characteristics: 1. Journal diameter greater than 75 mm; 2. Mass capability of from 0,9 to 23 kg; 3. Capable of balancing to a residual imbalance equal to or less than 0,01 kg × mm/kg per plane; and 4. Belt drive type. |
I.2A.022 | 2B225 | Remote manipulators that can be used to provide remote actions in radiochemical separation operations or hot cells, having either of the following characteristics: a. A capability of penetrating 0,6 m or more of hot cell wall (through-the-wall operation); or b. A capability of bridging over the top of a hot cell wall with a thickness of 0,6 m or more (over-the-wall operation). Technical Notes:Remote manipulators provide translation of human operator actions to a remote operating arm and terminal fixture. They may be of ‘ master/slave ’ type or operated by joystick or keypad. |
I.2A.023 | 2B226 | Controlled atmosphere (vacuum or inert gas) induction furnaces, and power supplies therefor, as follows: a. Furnaces having all of the following characteristics: 1. Capable of operation above 1 123 K (850 °C); 2. Induction coils 600 mm or less in diameter; and 3. Designed for power inputs of 5 kW or more; b. Power supplies, with a specified power output of 5 kW or more, specially designed for furnaces specified in I.2A.023.a. Note: I.2A.023.a. does not prohibit furnaces designed for the processing of semiconductor wafers. |
I.2A.024 | 2B227 | Vacuum or other controlled atmosphere metallurgical melting and casting furnaces and related equipment as follows: a. Arc remelt and casting furnaces having both of the following characteristics: 1. Consumable electrode capacities between 1 000 cm 3 and 20 000 cm 3 , and 2. Capable of operating with melting temperatures above 1 973 K ( 1 700 °C); b. Electron beam melting furnaces and plasma atomization and melting furnaces, having both of the following characteristics: 1. A power of 50 kW or greater; and 2. Capable of operating with melting temperatures above 1 473 K ( 1 200 °C); c. Computer control and monitoring systems specially configured for any of the furnaces specified in I.2A.024.a. or b. |
I.2A.025 | 2B228 | Rotor fabrication or assembly equipment, rotor straightening equipment, bellows-forming mandrels and dies, as follows: a. Rotor assembly equipment for assembly of gas centrifuge rotor tube sections, baffles, and end caps; Note: I.2A.025.a. includes precision mandrels, clamps, and shrink fit machines. b. Rotor straightening equipment for alignment of gas centrifuge rotor tube sections to a common axis; Technical Notes:In I.2A.025.b. such equipment normally consists of precision measuring probes linked to a computer that subsequently controls the action of, for example, pneumatic rams used for aligning the rotor tube sections. c. Bellows-forming mandrels and dies for producing single-convolution bellows. Technical Notes:In I.2A.025.c. the bellows have all of the following characteristics: 1. Inside diameter between 75 mm and 400 mm; 2. Length equal to or greater than 12,7 mm; 3. Single convolution depth greater than 2 mm; and 4. Made of high-strength aluminium alloys, maraging steel or high strength ‘ fibrous or filamentary materials ’ . |
I.2A.026 | 2B230 | ‘ Pressure transducers ’ capable of measuring absolute pressures at any point in the range 0 to 13 kPa and having both of the following characteristics: a. Pressure sensing elements made of or protected by aluminium, aluminium alloy, nickel or nickel alloy with more than 60 % nickel by weight; and b. Having either of the following characteristics: 1. A full scale of less than 13 kPa and an ‘ accuracy ’ of better than + 1 % of full scale; or 2. A full scale of 13 kPa or greater and an ‘ accuracy ’ of better than + 130 Pa. Technical Notes:For the purposes of I.2A.026, ‘ accuracy ’ includes non-linearity, hysteresis and repeatability at ambient temperature. |
I.2A.027 | 2B231 | Vacuum pumps having all of the following characteristics: a. Input throat size equal to or greater than 380 mm; b. Pumping speed equal to or greater than 15 m 3 /s; and c. Capable of producing an ultimate vacuum better than 13 mPa. Technical Notes:1. The pumping speed is determined at the measurement point with nitrogen gas or air.2. The ultimate vacuum is determined at the input of the pump with the input of the pump blocked off |
I.2A.028 | 2B232 | Multistage light gas guns or other high-velocity gun systems (coil, electromagnetic, and electrothermal types, and other advanced systems) capable of accelerating projectiles to 2 km/s or greater |
No | Relevant item(s) from Annex to Regulation (EC) No 1183/2007 | Description |
---|---|---|
I.2B.001 | ex 2D001 | ‘ Software ’ , other than that specified in I.2B.002, specially designed or modified for the ‘ development ’ , ‘ production ’ or ‘ use ’ of equipment specified in I.2A.004 to I.2A.006. |
I.2B.002 | 2D002 | ‘ Software ’ for electronic devices, even when residing in an electronic device or system, enabling such devices or systems to function as a ‘ numerical control ’ unit, capable of co-ordinating simultaneously more than four axes for ‘ contouring control ’ . Note 1: I.2B.002 does not prohibit ‘software’ specially designed or modified for the operation of machine tools not specified in Category I.2. |
I.2B.003 | 2D101 | ‘ Software ’ specially designed or modified for the ‘ use ’ of equipment specified in I.2A.007 to I.2A.015. |
I.2B.004 | 2D201 | ‘ Software ’ specially designed for the ‘ use ’ of equipment specified in I.2A.017 to I.2A.024. Note: ‘Software’ specially designed for equipment specified in I.2A.018 includes ‘software’ for simultaneous measurements of wall thickness and contour |
I.2B.005 | 2D202 | ‘ Software ’ specially designed or modified for the ‘ development ’ , ‘ production ’ or ‘ use ’ of equipment specified in I.2A.016. |
I.2B.006 | ex 2E001 | ‘ Technology ’ according to the General Technology Note for the ‘ development ’ of equipment or ‘ software ’ specified in I.2A.002 to I.2A.004, I.2A.006.b., I.2A.006.c, I.2A.007 to I.2A.028, I.2B.001, I.2B.003 or I.2B.004. |
I.2B.007 | ex 2E002 | ‘ Technology ’ according to the General Technology Note for the ‘ production ’ of equipment specified in I.2A.002 to I.2A.004, I.2A.006.b., I.2A.006.c, I.2A.007 to I.2A.028. |
I.2B.008 | 2E101 | ‘ Technology ’ according to the General Technology Note for the ‘ use ’ of equipment or ‘ software ’ specified in I.2A.007, I.2A.009, I.2A.010, I.2A.012 to I.2A.015 or I.2B.003. |
I.2B.009 | ex 2E201 | ‘ Technology ’ according to the General Technology Note for the ‘ use ’ of equipment or ‘ software ’ specified in I.2A.002 to I.2A.005, I.2A.006.b., I.2A.006.c., I.2A.016 to I.2A.020, I.2A.022 to I.2A.028, I.2B.004 or I.2B.005. |
No | Relevant item(s) from Annex to Regulation (EC) No 1183/2007 | Description |
---|---|---|
I.3B.001 | 3D101 | ‘ Software ’ specially designed or modified for the ‘ use ’ of equipment specified in I.3A.002.b |
I.3B.002 | ex 3E001 | ‘ Technology ’ according to the General Technology Note for the ‘ development ’ or ‘ production ’ of equipment or materials specified in I.3A.001 to I.3A.003, or in I.3A.007 to I.3A.012. |
I.3B.003 | ex 3E101 | ‘ Technology ’ according to the General Technology Note for the ‘ use ’ of equipment or ‘ software ’ specified in I.3A.001, I.3A.002 or I.3B.001. |
I.3B.004 | 3E102 | ‘ Technology ’ according to the General Technology Note for the ‘ development ’ of ‘ software ’ specified in I.3B.001. |
I.3B.005 | ex 3E201 | ‘ Technology ’ according to the General Technology Note for the ‘ use ’ of equipment specified in I.3A.003 to I.3A.012. |
No | Relevant item(s) from Annex to Regulation (EC) No 1183/2007 | Description |
---|---|---|
I.4A.001 | 4A001.a.1 * | Electronic computers and related equipment, as follows: N.B.: See also I.4A.002. a. Specially designed to have the following characteristics:
|
I.4A.002 | 4A101* | Analogue computers, ‘ digital computers ’ or digital differential analysers having all of the following characteristics: N.B.: See also Military Goods Controls for computers for use in rockets or missiles. a. Designed or modified for use in space launch vehicles specified in I.9A.001 or sounding rockets specified in I.9A.005; and b. Designed as ruggedised or radiation hardened to withstand radiation levels of 5 × 10 3 Gy (silicon) or higher. |
I.4A.003 | 4A102 | ‘ Hybrid computers ’ specially designed for modelling, simulation or design integration of space launch vehicles specified in I.9A.001 or sounding rockets specified in I.9A.005. N.B.: See also Military Goods Controls for rockets or missiles related computers. Note: This prohibition only applies when the equipment is supplied with ‘software’ specified in I.7B.003 or I.9B.003. |
No | Relevant item(s) from Annex to Regulation (EC) No 1183/2007 | Description |
---|---|---|
I.4B.001 | ex 4E001.a | ‘ Technology ’ according to the General Technology Note, for the ‘ development ’ , ‘ production ’ or ‘ use ’ of equipment or ‘ software ’ specified in I.4A.001, I.4A.002 or I.4A.003. |
No | Relevant item(s) from Annex to Regulation (EC) No 1183/2007 | Description |
---|---|---|
I.5B.001 | 5D101 | ‘ Software ’ specially designed or modified for the ‘ use ’ of equipment specified in I.5A.001. |
I.5B.002 | 5E101 | ‘ Technology ’ according to the General Technology Note for the ‘ development ’ , ‘ production ’ or ‘ use ’ of equipment specified in I.5A.001 or software specified in I.5B.001. |
a The texts of points a, b and c in this entry do not correspond with those of points a, b and c of 6A005. | ||
No | Relevant item(s) from Annex to Regulation (EC) No 1183/2007 | Description |
---|---|---|
I.6A.001 | ex 6A005.b*, ex 6A005.c* and ex 6A005.d* a.: ex 6A005.d.4 b.: ex 6A005.b.2-4 c.: ex 6A005.c.2 | ‘Lasers’, other than those specified in I.0A.002.g.5. or I.0A.002.h.6., components and optical equipment, as follows: a a. Pulsed excimer (XeF, XeCl, KrF) ‘ lasers ’ having all of the following characteristics: 1. Operating at wavelengths between 240 nm and 360 nm; 2. A repetition rate greater than 250 Hz; and 3. An average output power exceeding 500 W. b. Copper (Cu) vapour ‘ lasers ’ having both of the following characteristics: 1. Operating at wavelengths between 500 nm and 600 nm; and 2. An average output power exceeding 40 W. c. Solid state ‘tunable’ alexandrite (CR: BeAl 2 O 4 ) ‘lasers’ having all of the following characteristics: 1. Operating at wavelengths between 720 nm and 800 nm; 2. A bandwidth of 0,005 nm or less; 3. A repetition rate greater than 125 Hz; and 4. An average output power exceeding 30 W. |
I.6A.002 | 6A007.c | Gravity gradiometers. |
I.6A.003 | 6A102 | Radiation hardened ‘detectors’ specially designed or modified for protecting against nuclear effects (e.g. electromagnetic pulse (EMP), X-rays, combined blast and thermal effects) and usable for ‘missiles’, designed or rated to withstand radiation levels which meet or exceed a total irradiation dose of 5 × 10 5 rads (silicon). Technical Notes:In I.6A.003, a ‘ detector ’ is defined as a mechanical, electrical, optical or chemical device that automatically identifies and records, or registers a stimulus such as an environmental change in pressure or temperature, an electrical or electromagnetic signal or radiation from a radioactive material. This includes devices that sense by one time operation or failure. |
I.6A.004 | 6A107 | Gravity meters (gravimeters) and components for gravity meters and gravity gradiometers, as follows: a. Gravity meters, designed or modified for airborne or marine use, and having a static or operational accuracy of 7 × 10 -6 m/s 2 (0,7 milligal) or less (better), and having a time-to-steady-state registration of two minutes or less; b. Specially designed components for gravity meters specified in I.6A.004.a. and gravity gradiometers specified in I.6A.002. |
I.6A.005 | 6A108 | Radar systems and tracking systems as follows: a. Radar and laser radar systems designed or modified for use in space launch vehicles specified in I.9A.001 or sounding rockets specified in I.9A.005; N.B.: See also Military Goods Controls for radar and laser systems for rockets or missiles. Note: I.6A.005.a. includes the following: a. Terrain contour mapping equipment; b. Imaging sensor equipment; c. Scene mapping and correlation (both digital and analogue) equipment; d. Doppler navigation radar equipment. b. Precision tracking systems, usable for ‘ missiles ’ , as follows: 1. Tracking systems which use a code translator in conjunction with either surface or airborne references or navigation satellite systems to provide real-time measurements of in-flight position and velocity; 2. Range instrumentation radars including associated optical/infrared trackers with all of the following capabilities: a. Angular resolution better than 3 milliradians; b. Range of 30 km or greater with a range resolution better than 10 m rms; c. Velocity resolution better than 3 m/s. Technical Notes:In I.6A.005.b. ‘ missile ’ means complete rocket systems and unmanned aerial vehicle systems capable of a range exceeding 300 km. |
I.6A.006 | 6A202 | Photomultiplier tubes having both of the following characteristics: a. Photocathode area of greater than 20 cm 2 ; and b. Anode pulse rise time of less than 1 ns. |
I.6A.007 | 6A203 | Cameras and components, as follows: a. Mechanical rotating mirror cameras, as follows, and specially designed components therefor: 1. Framing cameras with recording rates greater than 225 000 frames per second; 2. Streak cameras with writing speeds greater than 0,5 mm per microsecond; Note: In I.6A.007.a. components of such cameras include their synchronizing electronics units and rotor assemblies consisting of turbines, mirrors and bearings. b. Electronic streak cameras, electronic framing cameras, tubes and devices, as follows: 1. Electronic streak cameras capable of 50 ns or less time resolution; 2. Streak tubes for cameras specified in I.6A.007.b.1.; 3. Electronic (or electronically shuttered) framing cameras capable of 50 ns or less frame exposure time; 4. Framing tubes and solid-state imaging devices for use with cameras specified in I.6A.007.b.3., as follows: a. Proximity focused image intensifier tubes having the photocathode deposited on a transparent conductive coating to decrease photocathode sheet resistance; b. Gate silicon intensifier target (SIT) videcon tubes, where a fast system allows gating the photoelectrons from the photocathode before they impinge on the SIT plate; c. Kerr or Pockels cell electro-optical shuttering; d. Other framing tubes and solid-state imaging devices having a fast-image gating time of less than 50 ns specially designed for cameras specified in I.6A.007.b.3.; c. Radiation-hardened TV cameras, or lenses therefor, specially designed or rated as radiation hardened to withstand a total radiation dose greater than 50 × 10 3 Gy(silicon) (5 × 10 6 rad (silicon)) without operational degradation. Technical Notes:The term Gy(silicon) refers to the energy in Joules per kilogram absorbed by an unshielded silicon sample when exposed to ionising radiation |
I.6A.008 | 6A205 | ‘ Lasers ’ , ‘ laser ’ amplifiers and oscillators, other than those specified in I.0A.002.g.5., I.0A.002.h.6. and I.6A.001; as follows: a. Argon ion ‘ lasers ’ having both of the following characteristics: 1. Operating at wavelengths between 400 nm and 515 nm; and 2. An average output power greater than 40 W; b. Tunable pulsed single-mode dye laser oscillators having all of the following characteristics: 1. Operating at wavelengths between 300 nm and 800 nm; 2. An average output power greater than 1 W; 3. A repetition rate greater than 1 kHz; and 4. Pulse width less than 100 ns; c. Tunable pulsed dye laser amplifiers and oscillators, having all of the following characteristics: 1. Operating at wavelengths between 300 nm and 800 nm; 2. An average output power greater than 30 W; 3. A repetition rate greater than 1 kHz; and 4. Pulse width less than 100 ns; Note: I.6A.008.c. does not prohibit single mode oscillators; d. Pulsed carbon dioxide ‘ lasers ’ having all of the following characteristics: 1. Operating at wavelengths between 9 000 nm and 11 000 nm; 2. A repetition rate greater than 250 Hz; 3. An average output power greater than 500 W; and 4. Pulse width of less than 200 ns; e. Para-hydrogen Raman shifters designed to operate at 16 micrometre output wavelength and at a repetition rate greater than 250 Hz; f. Neodymium-doped (other than glass) ‘ lasers ’ , having an output wavelength exceeding 1 000 nm but not exceeding 1 100 nm, as follows: 1. Pulse-excited, ‘ Q-switched lasers ’ having a ‘ pulse duration ’ equal to or more than 1 ns, and having either of the following: a. A single-transverse mode output having an average output power exceeding 40 W; or b. A multiple-transverse mode output having an average power exceeding 50 W; or 2. Incorporating frequency doubling to give an output wavelength of 500 nm or more but not exceeding 550 nm and having an average output power exceeding 40 W. |
I.6A.009 | 6A225 | Velocity interferometers for measuring velocities exceeding 1 km/s during time intervals of less than 10 microseconds. Note: I.6A.009 includes velocity interferometers such as VISARs (Velocity interferometer systems for any reflector) and DLIs (Doppler laser interferometers). |
I.6A.010 | 6A226 | Pressure sensors, as follows: a. Manganin gauges for pressures greater than 10 GPa; b. Quartz pressure transducers for pressures greater than 10 GPa |
I.6A.011 | ex 6B108* | Systems specially designed for radar cross section measurement usable for ‘ missiles ’ and their subsystems. |
No | Relevant item(s) from Annex to Regulation (EC) No 1183/2007 | Description |
---|---|---|
I.7B.001 | ex 7D101 | ‘ Software ’ specially designed or modified for the ‘ use ’ of equipment specified in I.7A.001 to I.7A.008, I.7A.009.a., I.7A.009.b. or I.7A.011 to I.7A.015 |
I.7B.002 | 7D102 | Integration ‘ software ’ as follows: a. Integration ‘ software ’ for the equipment specified in I.7A.004.b.; b. Integration ‘ software ’ specially designed for the equipment specified in I.7A.004.a.; c. Integration ‘ software ’ designed or modified for the equipment specified in I.7A.004.c. Note: A common form of integration ‘software’ employs Kalman filtering. |
I.7B.003 | 7D103 | ‘ Software ’ specially designed for modelling or simulation of the ‘ guidance sets ’ specified in I.7A.010 or for their design integration with the space launch vehicles specified in I.9A.001 or sounding rockets specified in I.9A.005. Note: ‘Software’ specified in I.7B.003 remains prohibited when combined with specially designed hardware specified in I.4A.003. |
I.7B.004 | ex 7E001 | ‘ Technology ’ according to the General Technology Note for the ‘ development ’ of equipment or ‘ software ’ specified in I.7A.001 to I.7A.015, or in I.7B.001 to I.7B.003. |
I.7B.005 | ex 7E002 | ‘ Technology ’ according to the General Technology Note for the ‘ production ’ of equipment specified in I.7A.001 to I.7A.015. |
I.7B.006 | 7E101 | ‘ Technology ’ according to the General Technology Note for the ‘ use ’ of equipment specified in I.7A.001 to I.7A.015 or I.7B.001 to I.7B.003. |
I.7B.007 | 7E102 | ‘ Technology ’ for protection of avionics and electrical subsystems against electromagnetic pulse (EMP) and electromagnetic interference (EMI) hazards, from external sources, as follows: a. Design ‘ technology ’ for shielding systems; b. Design ‘ technology ’ for the configuration of hardened electrical circuits and subsystems; c. Design ‘ technology ’ for the determination of hardening criteria of I.7B.007.a. and I.7B.007.b. |
I.7B.008 | 7E104 | ‘ Technology ’ for the integration of the flight control, guidance, and propulsion data into a flight management system for optimization of rocket system trajectory. |
No | Relevant item(s) from Annex to Regulation (EC) No 1183/2007 | Description |
---|---|---|
I.9B.001 | ex 9D001 | ‘ Software ’ specially designed or modified for the ‘ development ’ of equipment or ‘ technology ’ specified in I.9A.002, I.9A.009, I.9A.012, I.9A.015 or I.9A.016. |
I.9B.002 | 9D101 | ‘ Software ’ specially designed or modified for the ‘ use ’ of goods specified in I.9A.020, I.9A.021, I.9A.023 or I.9A.024. |
I.9B.003 | 9D103 | ‘ Software ’ specially designed for modelling, simulation or design integration of the space launch vehicles specified in I.9A.001 or sounding rockets specified in I.9A.005, or the subsystems specified in I.9A.006.a., I.9A.007, I.9A.009, I.9A.014 or I.9A.017. Note: ‘Software’ specified in I.9B.003 remains prohibited when combined with specially designed hardware specified in I.4A.003. |
I.9B.004 | ex 9D104 | ‘ Software ’ specially designed or modified for the ‘ use ’ of goods specified in 9A005, I.9A.002, I.9A.004, I.9A.006, I.9A.007.c., I.9A.007.d., I.9A.008, I.9A.009.c., I.9A.010, I.9A.012, I.9A.013.a., I.9A.014.d., I.9A.015 or I.9A.016. |
I.9B.005 | 9D105 | ‘ Software ’ which coordinates the function of more than one subsystem, specially designed or modified for ‘ use ’ in space launch vehicles specified in I.9A.001 or sounding rockets specified in I.9A.005. |
I.9B.006 | ex 9E001 | ‘ Technology ’ according to the General Technology Note for the ‘ development ’ of equipment or ‘ software ’ specified in I.9A.001, I.9A.003, I.9A.021 to I.9A.024, or I.9B.002 to I.9B.005. |
I.9B.007 | ex 9E002 | ‘ Technology ’ according to the General Technology Note for the ‘ production ’ of equipment specified in I.9A.001, I.9A.003 or I.9A.021 to I.9A.024. |
I.9B.008 | 9E101 | ‘ Technology ’ according to the General Technology Note for the ‘ development ’ or ‘ production ’ of goods specified in I.9A.004 to I.9A.017. |
I.9B.009 | ex 9E102 | ‘ Technology ’ according to the General Technology Note for the ‘ use ’ of space launch vehicles specified in I.9A.001, or goods specified in I.9A.002, I.9A.004 to I.9A.017, I.9A.020 to I.9A.024, I.9B.002 or I.9B.003.] |
No | Description | Related item from Annex I to Regulation (EC) No 394/2006 |
---|---|---|
II.A0.001 | Hollow cathode lamps as follows: a. Iodine hollow cathode lamps with windows in pure silicon or quartz b. Uranium hollow cathode lamps | — |
II.A0.002 | Faraday isolators in the wavelength range 500–650 nm | — |
II.A0.003 | Optical gratings in the wavelength range 500–650 nm | — |
II.A0.004 | Optical fibres in the wavelength range 500–650 nm coated with anti-reflecting layers in the wavelength range 500–650 nm and having core diameter greater than 0,4 mm but not exceeding 2 mm | — |
II.A0.005 | Nuclear reactor vessel components and testing equipment, other than those specified in 0A001, as follows: 1. Seals 2. Internal components 3. Sealing, testing and measurement equipment | 0A001 |
II.A0.006 | Nuclear detection systems for detection, identification or quantification of radioactive materials and radiation of nuclear origin and specially designed components therefor, other than those specified in 0A001.j or 1A004c | 0A001.j 1A004.c |
II.A0.007 | Bellows-sealed valves made of aluminium alloy or stainless steel type 304 or 316 L. Note: This item does not control bellow valves defined in 0B001.c.6 and 2A226 | 0B001.c.6 2A226 |
II.A0.008 | Plane, convex and concave mirrors, coated with high-reflecting or controlled multi-layers in the wavelength range 500 nm-650 nm | 0B001.g.5 |
II.A0.009 | Lenses, polarisers, half-wave retarder plates (λ/2 plates), quarter-wave retarder plates (λ/4 plates), laser windows in silicon or quartz and rotators, coated with anti-reflecting layers in the wavelength range 500–650 nm | 0B001.g |
II.A0.010 | Pipes, piping, flanges, fittings made of, or lined with nickel or nickel alloy containing more than 40 % nickel by weight, other than those specified in 2B350.h.1. | 2B350 |
II.A0.011 | Vacuum pumps other than those specified in 0B002.f.2. or 2B231, as follows:
Bellows-sealed, scroll, dry compressor, and bellows sealed, scroll, dry vacuum pumps | 0B002.f.2 2B231 |
II.A0.012 | Shielded enclosures for the manipulation, storage and handling of radioactive substances (hot cells). | 0B006 |
II.A0.013 | ‘Natural uranium’ or ‘depleted uranium’ or thorium in the form of metal, alloy, chemical compound or concentrate and any other material containing one or more of the foregoing, other than those specified in 0C001. | 0C001 |
No | Description | Related item from Annex I to Regulation (EC) No 394/2006 |
---|---|---|
II.A3.001 | High voltage direct current power supplies having both of the following characteristics: a. Capable of continuously producing, over a time period of eight hours, 10 kV or greater, with output power of 5 kW or greater with or without sweeping; and b. Current or voltage stability better than 0,1 % over a time period of four hours. Note: This item does not control power supplies defined in items 0B001.j.5 and 3A227. | 3A227 |
II.A3.002 | Mass spectrometers, other than those specified in 3A233 or 0B002g, capable of measuring ions of 200 atomic mass units or greater and having a resolution of better than 2 parts in 200, as follows, and ion sources therefor: a. Inductively coupled plasma mass spectrometers (ICP/MS); b. Glow discharge mass spectrometers (GDMS); c. Thermal ionisation mass spectrometers (TIMS); d. Electron bombardment mass spectrometers which have a source chamber constructed from, lined with or plated with ‘Materials resistant to corrosion by UF6’; e. Molecular beam mass spectrometers having either of the following characteristics: 1. A source chamber constructed from, lined with or plated with stainless steel or molybdenum and equipped with a cold trap capable of cooling to 193 K (– 80 °C) or less; or 2. A source chamber constructed from, lined with or plated with ‘Materials resistant to corrosion by UF6’; f. Mass spectrometers equipped with a microfluorination ion source designed for actinides or actinide fluorides. | 3A233 |
No | Description | Related item from Annex I to Regulation (EC) No 394/2006 |
---|---|---|
II.B.001 | Technology required for the development, production or use of the items in Part A (Goods) above. |
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Address for notifications to the European Commission:
European Commission
DG External Relations
Directorate A Crisis Platform — Policy Coordination in Common Foreign and Security Policy
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CHAR 12/106
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E-mail: relex-sanctions@ec.europa.eu
Tel. (32-2) 295 55 85
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Textual Amendments
List of persons, entities and bodies referred to in Article 7(2)
Name | Identifying information | Reasons | |
---|---|---|---|
1. | Aerospace Industries Organisation (AIO) | AIO, 28 Shian 5, Lavizan, Tehran | The AIO oversees Iran's production of missiles, including the Shahid Hemmat Industrial Group, the Shahid Bagheri Industrial Group and the Fajr Industrial Group, which were all designated under UNSCR 1737 (2006). The head of the AIO and two other senior officials were also designated under UNSCR 1737 (2006). |
2. | Armament Industries | Pasdaran Av., PO Box 19585/777, Tehran | A subsidiary of the DIO (Defence Industries Organisation). |
3. | Defence Technology and Science Research Centre (DTSRC) — also known as the Educational Research Institute/Moassese Amozeh Va Tahgiaghati (ERI/MAVT Co.) | Pasdaran Av., PO Box 19585/777, Tehran | Responsible for R&D. A subsidiary of the DIO. The DTSRC handles much of the procurement for the DIO. |
4. | Jaber Ibn Hayan | AEOI JIHRD, PO Box 11365-8486, Tehran; 84, 20th Av., Entehaye Karegar Shomali Street, Tehran | Jaber Ibn Hayan is an AEOI (Atomic Energy Organisation of Iran) laboratory involved in fuel cycle activities. Located within the Tehran Nuclear Research Centre (TNRC), it was not declared by Iran under its safeguards agreement prior to 2003, although conversion work was being carried out there. |
5. | Marine Industries | Pasdaran Av., PO Box 19585/777, Tehran | A subsidiary of the DIO. |
6. | Nuclear Fuel Production and Procurement Company (NFPC) | AEOI-NFPD, PO Box 11365-8486, Tehran, Iran | The Nuclear Fuel Production Division (NFPD) of the AEOI is involved in research and development in the field of the nuclear fuel cycle, including uranium exploration, mining, milling and conversion and nuclear waste management. The NFPC is the successor to the NFPD, the subsidiary company under the AEOI that runs research and development in the nuclear fuel cycle, including conversion and enrichment. |
7. | Special Industries Group | Pasdaran Av., PO Box 19585/777, Tehran | A subsidiary of the DIO. |
8. | TAMAS Company | TAMAS is involved in enrichment-related activities, which Iran is required by the IAEA Board and the Security Council to suspend. TAMAS is the overarching body, under which four subsidiaries have been established, including one doing uranium extraction to concentration and another in charge of uranium processing, enrichment and waste. |
Textual Amendments
Name | Identifying information | Reasons | |
---|---|---|---|
1. | Reza AGHAZADEH | Date of birth: 15.3.1949 . Passport number: S4409483, valid 26.4.2000 - 27.4.2010 . Issued: Tehran. Place of birth: Khoy. | Head of the Atomic Energy Organisation of Iran (AEOI). The AEOI oversees Iran's nuclear programme and is designated under UNSCR 1737 (2006). |
2. | Amir Moayyed ALAI | Involved in managing the assembly and engineering of centrifuges. Iran is required by the IAEA Board and the Security Council to suspend all enrichment-related activities. This includes all centrifuge-related work. On 27 August 2006 Alai received a special award from President Ahmadinejad for his role in managing the assembly and engineering of centrifuges. | |
3. | Mohammed Fedai ASHIANI | Involved in the production of ammonium uranyl carbonate (AUC) and the management of the Natanz enrichment complex. Iran is required to suspend all enrichment-related activities. On 27 August 2006 Ashiani received a special award from President Ahmadinejad for his role in the AUC production process and for his role in the management of and engineering design for the enrichment complex at the Natanz (Kashan) site. | |
4. | Haleh BAKHTIAR | Involved in the production of magnesium at a concentration of 99,9 %. On 27 August 2006 Bakhtiar received a special award from President Ahmadinejad for her role in producing magnesium at a concentration of 99,9 %. Magnesium of this purity is used to produce uranium metal, which can be cast into material for a nuclear weapon. Iran has refused to provide the IAEA with access to a document on the production of uranium metal hemispheres, only applicable for nuclear weapons use. | |
5. | Morteza BEHZAD | Involved in making centrifuge components. Iran is required to suspend all enrichment-related activities. This includes all centrifuge-related work. On 27 August 2006 Behzad received a special award from President Ahmadinejad for his role in making complex and sensitive centrifuge components. | |
6. | Dr Hoseyn (Hossein) FAQIHIAN | Address of the NFPC: AEOI-NFPD, PO Box 11365-8486, Tehran, Iran . | Deputy and Director General of the Nuclear Fuel Production and Procurement Company (NFPC), part of the AEOI. The AEOI oversees Iran's nuclear programme and is designated under UNSCR 1737 (2006). The NFPC is involved in enrichment-related activities, which Iran is required by the IAEA Board and the Security Council to suspend. |
7. | Seyyed Hussein (Hossein) HUSSEINI (HOSSEINI) | An AEOI official involved in the heavy water research reactor (IR40) project at Arak. UNSCR 1737 (2006) required Iran to suspend all work on heavy water related projects. | |
8. | Javad KARIMI SABET | Head of the Novin Energy Company. In August 2006 Karimi Sabet received an award from President Ahmadinejad for his role in designing, producing, installing and using nuclear equipment at the Natanz site. | |
9. | Said Esmail KHALILIPOUR | Deputy Head of the AEOI. The AEOI oversees Iran's nuclear programme and is designated under UNSCR 1737 (2006). | |
10. | Ali Reza KHANCHI | Address of the NRC: AEOI-NRC, PO Box 11365-8486, Tehran, Iran; Fax (+9821) 8021412 . | Head of the AEOI's Tehran Nuclear Research Centre. The IAEA is continuing to seek clarification from Iran about plutonium separation experiments carried out at the TNRC, including about the presence of HEU particles in environmental samples taken at the Karaj Waste Storage Facility, where containers used to store depleted uranium targets used in those experiments are located. The AEOI oversees Iran's nuclear programme and is designated under UNSCR 1737 (2006). |
11. | Hamid-Reza MOHAJERANI | Involved in production management at the Uranium Conversion Facility (UCF) at Esfahan. On 27 August 2006 Mohajerani received a special award from President Ahmadinejad for his role in production management at the UCF and in planning, building and installing the UF6 unit (UF6 is the feed material for enrichment). | |
12. | Houshang NOBARI | Involved in the management of the Natanz enrichment complex. Iran is required by the IAEA Board and the Security Council to suspend all enrichment-related activities. These include activities at the enrichment complex at Natanz (Kashan). On 27 August 2006 Nobari received a special award from President Ahmadinejad for his role in the successful management and execution of the Natanz (Kashan) site plan. | |
13. | Dr Javad RAHIQI | Head of the AEOI's Esfahan Nuclear Technology Centre. This oversees the uranium conversion plant at Esfahan. Iran is required by the IAEA Board and the Security Council to suspend all enrichment-related activities. This includes all uranium conversion work. The AEOI oversees Iran's nuclear programme and is designated under UNSCR 1737 (2006). | |
14. | Abbas RASHIDI | Involved in enrichment work at Natanz. Iran is required by the IAEA Board and the Security Council to suspend all enrichment-related activities. On 27 August 2006 Rashidi received a special award from President Ahmadinejad for his management and notable role in the successful operation of the 164-centrifuge enrichment cascade at Natanz. | |
15. | Abdollah SOLAT SANA | Managing Director of the Uranium Conversion Facility (UCF) in Esfahan. This is the facility that produces the feed material (UF6) for the enrichment facilities at Natanz. On 27 August 2006 Solat Sana received a special award from President Ahmadinejad for his role.] |
OJ L 61, 28.2.2007, p. 49 . Common Position as last amended by Common Position 2007/246/CFSP ( OJ L 106, 24.4.2007, p. 67 ).]
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For any versions created after the implementation period as a result of changes made by UK legislation the date will coincide with the earliest date on which the change (e.g an insertion, a repeal or a substitution) that was applied came into force. For further information see our guide to revised legislation on Understanding Legislation.
Use this menu to access essential accompanying documents and information for this legislation item. Dependent on the legislation item being viewed this may include:
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