[ Identification | Description | Input parameters | Links ]
Monitor_nD
ComponentThis component is a general Monitor that can output 0/1/2D signals It can produce many 1D signals (one for any variable specified in option list), or a single 2D output (two variables correlation). Also, an additional 'list' of neutron events can be produced. By default, monitor is square (in x/y plane). A disk shape is also possible The 'cylinder' and 'banana' option will change that for a banana shape The 'sphere' option simulates spherical detector. The 'box' is a box. The cylinder, sphere and banana should be centered on the scattering point. The monitored flux may be per monitor unit area, and weighted by a lambda/lambda(2200m/s) factor to obtain standard integrated capture flux. In normal configuration, the Monitor_nD measures the current parameters of the neutron that is beeing detected. But a PreMonitor_nD component can be used in order to study correlations between a neutron being detected in a Monitor_nD place, and given parameters that are monitored elsewhere (at PreMonitor_nD). The monitor can also act as a 3He gas detector, taking into account the detection efficiency. The 'bins' and 'limits' modifiers are to be used after each variable, and 'auto','log' and 'abs' come before it. (eg: auto abs log hdiv bins=10 limits=[-5 5]) When placed after all variables, these two latter modifiers apply to the signal (e.g. intensity). Unknown keywords are ignored. If no limits are specified for a given observable, reasonable defaults will be applied. Note that these implicit limits are even applied in list mode. Implicit limits for typical variables: (consult monitor_nd-lib.c if you don't find your variable here) x, y, z: Derived from detection-object geometry k: [0 10] Angs-1 v: [0 1e6] m/s t: [0 1] s p: [0 FLT_MAX] in intensity-units vx, vy: [-1000 1000] m/s vz: [0 10000] m/s kx, ky: [-1 1] Angs-1 kz: [-10 10] Angs-1 energy, omega: [0 100] meV lambda,wavelength: [0 100] Angs sx, sy, sz: [-1 1] in polarisation-units angle: [-50 50] deg divergence, vdiv, hdiv, xdiv, ydiv: [-5 5] deg longitude, lattitude: [-180 180] deg neutron: [0 simulaton_ncount] id, pixel id: [0 FLT_MAX] uservars u1,u2,u3: [-1e10 1e10] In the case of multiple components at the same position, the 'parallel' keyword must be used in each instance instead of defining a GROUP. Possible options are Variables to record: kx ky kz k wavevector [Angs-1] Wavevector on x,y,z and norm vx vy vz v [m/s] Velocity on x,y,z and norm x y z radius [m] Distance, Position and norm xy, yz, xz [m] Radial position in xy, yz and xz plane kxy kyz kxz [Angs-1] Radial wavevector in xy, yz and xz plane vxy vyz vxz [m/s] Radial velocity in xy, yz and xz plane t time [s] Time of Flight energy omega [meV] energy of neutron lambda wavelength [Angs] wavelength of neutron sx sy sz [1] Spin vdiv ydiv dy [deg] vertical divergence (y) hdiv divergence xdiv [deg] horizontal divergence (x) angle [deg] divergence fromdirection theta longitude [deg] longitude (x/z) for sphere and cylinder phi lattitude [deg] lattitude (y/z) for sphere and cylinder user user1 will monitor the [Mon_Name]_Vars.UserVariable{1|2|3} user2 user3 to be assigned in an other component (see below) p intensity flux [n/s or n/cm^2/s] ncounts n neutron [1] neutron ID, i.e current event index pixel id [1] pixelID in histogram made of preceeding vars, e.g. 'theta y'. To set an offset PixelID use the 'min=value' keyword. Sets event mode. Other options keywords are: abs Will monitor the abs of the following variable or of the signal (if used after all variables) auto Automatically set detector limits for one/all all {limits|bins|auto} To set all limits or bins values or auto mode binary {float|double} with 'source' option, saves in compact files bins=[bins=20] Number of bins in the detector along dimension borders To also count off-limits neutrons (X < min or X > max) capture weight by lambda/lambda(2200m/s) capture flux file=string Detector image file name. default is component name, plus date and variable extension. incoming Monitor incoming beam in non flat det limits=[min max] Lower/Upper limits for axes (see up for the variable unit) list=[counts=1000] or all For a long file of neutron characteristics with [counts] or all events log Will monitor the log of the following variable or of the signal (if used after all variables) min=[min_value] Same as limits, but only sets the min or max max=[max_value] multiple Create multiple independant 1D monitors files no or not Revert next option outgoing Monitor outgoing beam (default) parallel Use this option when the next component is at the same position (parallel components) per cm2 Intensity will be per cm^2 (detector area). Displays beam section. per steradian Displays beam solid angle in steradian premonitor Will monitor neutron parameters stored previously with PreMonitor_nD. signal=[var] Will monitor [var] instead of usual intensity slit or absorb Absorb neutrons that are out detector source The monitor will save neutron states unactivate To unactivate detector (0D detector) verbose To display additional informations 3He_pressure=[3 in bars] The 3He gas pressure in detector. 3He_pressure=0 is perfect detector (default) Detector shape options (specified as xwidth,yheight,zdepth or x/y/z/min/max) box Box of size xwidth, yheight, zdepth. cylinder To get a cylindrical monitor (diameter is xwidth or set radius, height is yheight). banana Same as cylinder, without top/bottom, on restricted angular area; use theta variable with limits to define arc. (diameter is xwidth or set radius, height is yheight). disk Disk flat xy monitor. diameter is xwidth. sphere To get a spherical monitor (e.g. a 4PI) (diameter is xwidth or set radius). square Square flat xy monitor (xwidth, yheight). previous The monitor uses PREVIOUS component as detector surface. Or use 'geometry' parameter to specify any PLY/OFF geometry file. EXAMPLES: MyMon = Monitor_nD( xwidth = 0.1, yheight = 0.1, zdepth = 0, options = "intensity per cm2 angle,limits=[-5 5] bins=10,with borders, file = mon1"); will monitor neutron angle from [z] axis, between -5 and 5 degrees, in 10 bins, into "mon1.A" output 1D file options = "sphere theta phi outgoing" for a sphere PSD detector (out beam) and saves into file "MyMon_[Date_ID].th_ph" options = "banana, theta limits=[10,130], bins=120, y" a theta/height banana detector options = "angle radius all auto" is a 2D monitor with automatic limits options = "list=1000 kx ky kz energy" records 1000 neutron event in a file options = "multiple kx ky kz, auto abs log t, and list all neutrons" makes 4 output 1D files and produces a complete list for all neutrons and monitor log(abs(tof)) within automatic limits (for t) options = "theta y, sphere, pixel min=100" a 4pi detector which outputs an event list with pixelID from the actual detector surface, starting from index 100. options = "list all vx vy vz limits 0 2000" records all events with 0 How to monitor any instrument/component variable into a Monitor_nD Suppose you want to monitor a variable 'age' which you assign somwhere in the instrument: COMPONENT MyMonitor = Monitor_nD( xwidth = 0.1, yheight = 0.1, user1=age, username1="Age of the Captain [years]", options="user1, auto") AT ... See also the example in PreMonitor_nD to monitor neutron parameters cross-correlations. %BUGS The 'auto' option for guessing optimal variable bounds should NOT be used with MPI as each process may use different limits.
Name | Unit | Description | Default | |
user1 | variable | Variable assigned to User1 | FLT_MAX | |
user2 | variable | Variable assigned to User2 | FLT_MAX | |
user3 | variable | Variable assigned to User3 | FLT_MAX | |
xwidth | m | Width of detector. | 0 | |
yheight | m | Height of detector. | 0 | |
zdepth | m | Thickness of detector (z). | 0 | |
xmin | m | Lower x bound of opening | 0 | |
xmax | m | Upper x bound of opening | 0 | |
ymin | m | Lower y bound of opening | 0 | |
ymax | m | Upper y bound of opening | 0 | |
zmin | m | Lower z bound of opening | 0 | |
zmax | m | Upper z bound of opening | 0 | |
bins | 1 | Number of bins to force for all variables. Use 'bins' keyword in 'options' for heterogeneous bins | 0 | |
min | u | Minimum range value to force for all variables. Use 'min' or 'limits' keyword in 'options' for other limits | -1e40 | |
max | u | Maximum range value to force for all variables. Use 'max' or 'limits' keyword in 'options' for other limits | 1e40 | |
restore_neutron | 0|1 | If set, the monitor does not influence the neutron state. Equivalent to setting the 'parallel' option. | 0 | |
radius | m | Radius of sphere/banana shape monitor | 0 | |
options | str | String that specifies the configuration of the monitor. The general syntax is "[x] options..." (see Descr.). | "NULL" | |
filename | str | Output file name (overrides file=XX option). | "NULL" | |
geometry | str | Name of an OFF file to specify a complex geometry detector | "NULL" | |
username1 | str | Name assigned to User1 | "NULL" | |
username2 | str | Name assigned to User2 | "NULL" | |
username3 | str | Name assigned to User3 | "NULL" | |
nowritefile | 1 | If set, monitor will skip writing to disk | 0 |
AT ( | , | , | ) RELATIVE | |||
---|---|---|---|---|---|---|
ROTATED ( | , | , | ) RELATIVE |
Monitor_nD.comp
.
[ Identification | Description | Input parameters | Links ]
Generated on 2024-01-03 11:47:43