diff --git a/README.md b/README.md
index a345885637c0866685796ec82a290c82713609f2..7b59f6b79775f3b36b4ea615aa841a5848cbec1d 100644
--- a/README.md
+++ b/README.md
@@ -40,15 +40,15 @@ the server and pulls the data to the client computer.
   - *mcpha_log.ui*      qt5 tab for message display
   - RP-image  directory with all files necessary to boot a RedPitaya and start the server
     application based on the "small, simple and secure" linux distribution
-    [alpine-3.18-armv7-20240204](https://github.com/pavel-demin/red-pitaya-notes/releases/tag/20240204)
-
+    [alpine-3.18-armv7-20240204](https://github.com/pavel-demin/red-pitaya-notes/releases/tag/20240204) 
   - utility scripts in the sub-directory *helpers/*
 
 
 ## Credit:
 
-This project essentially is a fork of the sub-directory *projects/mcpha* in a project by
-[Pavel Demin, [red-pitaya-notes](https://pavel-demin.github.io/red-pitaya-notes).
+*mcpha.py* is a fork of the sub-directory *projects/mcpha* in a project by
+Pavel Demin, [red-pitaya-notes](https://pavel-demin.github.io/red-pitaya-notes), *redPoscdaq.py* represents an
+extension of the oscilloscope class enabling fast restart and data export.  
 
 
 ## Multi-Channel Pulse-Height Analyzer for the RedPitaya FPGA board
@@ -100,7 +100,7 @@ of the *matplotlib*window to mark regions to zoom in for a detailed inspection o
 The script *redPosci.py* relies on the same server and FPGA image as the pulse-height analyzer.
 The *oscilloscope* and *generator* tabs provide the same functionality as in *mcpha.py*.
 In addition, however,  there is a button "*Start DAQ*" to run the oscilloscope in data acquisition
-mode, i.e. continuously. A subset of the data is shown in the oscilloscope display,together with
+mode, i.e. continuously. A subset of the data is shown in the oscilloscope display, together with
 information on the trigger rate and the transferred data volume. A configurable user-defined function
 may also be called to analyse and store the recorded waveforms. 
 It is possible to transfer data over a one-Gbit network from the RedPitaya with a rate of 50 MB/s
@@ -186,15 +186,15 @@ Then, on the client side:
 The directory *helpers/* contains helper scripts to read and visualize data from
 files written by *mcpha.py*, for both spectrum histograms and exported waveforms.
 Note that presently mcpha.py exports data in human-readable format using 
-*numpy.savetxt()* 
+*numpy.savetxt()*.
 
  >  *generate_spectrum_input.py*  is a script to to generate input spectra for the signal 
     generator of mcpha.py The convention is to use 4096 channels for a range from 0 to 500 mV.
     Pulse heights are drawn randomly from this spectrum, and pulses are formed according to the
     frequency and the rise and fall times specified in the graphical interface. The signals are 
     available at the *out1*  connector of the RedPitaya board.   
-    
-    Pulses can be generated at a fixed frequency, or with random timing corresponding to a 
+ >    
+ >   Pulses can be generated at a fixed frequency, or with random timing corresponding to a 
     Poisson process with a mean pulse rate given by the chosen frequency. The latter option is 
     useful to study "pile-up" effects from overlapping pulses. 
 
@@ -203,6 +203,13 @@ Note that presently mcpha.py exports data in human-readable format using
 >  *read_osc.py* demonstrates how to read and plot waveform data exported from the 
    oscilloscope tab of mcpha.py.
 
+## Examples
+
+The directory *examples/* contains some spectra recorded with *mchph.py* and the Python
+program *peakFitter.py* to find and precisely fit peaks in recorded spectra. An example is
+shown here:
+![Spectrum with fitted peaks](images/Spectrum.png){width=800px}
+
 
 ## License
 
@@ -211,6 +218,5 @@ Like the original code by Pavel Demin, this open-source code is provided under t
 
 ## Project status
 
-This project has been developed for experiments in the physics lab courses at the Faculty of 
-Physics at Karlsruhe Institute of Technology. Presently, the code is under test. A public
-β-release is in preparation. 
+This project has been developed for experiments in the physics lab courses at the Faculty of Physics  
+ at Karlsruhe Institute of Technology. The code is already public, but presently still under test. 
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