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Optical Evaluation plots how your coating transmits, reflects and absorbs light across a wavelength range. For every wavelength on the grid you set, it runs a full thin-film calculation on the active design and draws transmittance T(λ), reflectance R(λ) and absorptance A(λ) = 1 − T − R. This is the tool you reach for after every design change to confirm the spectrum still looks the way you expect. All three curves are shown in percent.

Each quantity is available for s (TE) and p (TM) polarization and for their average. Absorptance is only meaningful when a layer or the substrate has a non-zero extinction coefficient k; for transparent dielectrics it stays at zero and T + R = 100 %.

Wavelength range and step — the span and sampling resolution of the plot, in nanometres. The default is 400–700 nm. Use a step of 0.5 nm or finer near narrow features such as bandpass notches, where a coarse grid can skip over a deep dip.

Axis units — relabels the horizontal axis in nm, µm, cm⁻¹ (wavenumber), THz or eV. This is a display choice only: the underlying sampling always stays in nanometres, so switching units never changes the computed curves. Wavenumber and energy axes increase in the opposite direction to wavelength.

AOI — the angle of incidence in degrees from the normal. You can list several angles at once; each is drawn as its own set of curves, with later angles slightly more transparent so they read as a family. Click an existing angle to edit it in place, or type a new value to add one.

Curves — toggle which quantities and polarizations are drawn: T, R and A for the average, and the individual s and p curves.

Y-axis — leave on the default fixed 0–100 % range, switch to auto-fit, or enter an explicit minimum and maximum to zoom into a shallow band.

Auto / Calculate — with Auto on, the plot recomputes whenever the design or settings change. Turn it off and use the Calculate button when you want to hold a result while editing.

The evaluation surface (front only, back only, or both sides together) is set in the Design Editor and shown as a badge on the window. Front evaluates the front coating on the substrate, Back the back coating, and Total combines both sides through the substrate — the last is what a spectrophotometer measures for a part coated on both faces. When cone-angle averaging is active, a second badge appears and the curves are averaged over the cone.

If the active design has merit-function targets, they are drawn over the spectrum so you can see what the design is being optimized toward. Point targets appear as bold X markers; band and ramp targets appear as a dotted target line with a tinted zone. Targets are color-coded by quantity (R red, T blue, A green) and by polarization through the line style. Turn the Targets button off to compare designs without the markers crowding the chart.

The Edit button lets you build and adjust targets directly on the plot instead of typing them into the Merit Function Editor:

  • Draw — drag a line to add a target. Choose the quantity (R/T/A) and polarization, and whether the line is a band average or a continuous per- wavelength ramp. A flat line becomes a band average; a sloped line becomes a ramp.
  • Delete — switch to the delete tool and click a target’s line or marker to remove it.
  • Snapping — endpoints snap to a grid (in nm and %) and to existing target ends, so near-flat lines settle onto clean levels such as a 50 % band.

Every edit writes straight to the design’s targets, so the Merit Function Editor stays in sync and each change is a single undo step.

The curves answer the basic questions about a coating at a glance: an antireflection design drives R toward zero across its band, a mirror drives R toward 100 %, and a filter shows sharp transitions between pass and block regions. A gap between T + R and 100 % is absorption — check that no layer is accidentally using a metal when you expect a transparent coating.

The collapsible data table lists λ, T, R, A for the curves on screen, and Copy CSV / Save CSV export exactly those curves at the chosen angle and wavelength grid. Curves imported through Measured Spectra appear as dotted lines with open-circle markers, so you can lay a measurement over the prediction.

  • H. A. Macleod, Thin-Film Optical Filters, 5th ed., §2.4 (Eqs. 2.111, 2.113), §2.6.4 (incoherent substrate).