It seems like you don't understand what we've been talking about throughout this thread, I'll try to summarise it for you.
Look up ohm's law on Google.
[latex]I= \frac{V}{R}[/latex]
Current is limited by resistance - a 1
hm: resistor across a 1V supply will only draw 1A regardless of how much current the supply is capable of supplying.
LEDs aren't resistive and have a similar voltage drop regardless of the current.
You need to add a resistor in series with the LED to limit the current to the required level.
This also means that there is a minimum voltage that an LED will operate on, for example a typical white LED has a forward voltage drop of 3.5V, therefore it will not operate satisfactorily below this voltage. Your battery voltage needs to be significantly higher than 3.5V throughout the discharge cycle in order to have a decent battery life for example three AA cells might start at 4.5V but they'll quickly drop to 3V so I'd recommend using six cells for a white LED. This means that unless you use a voltage booster circuit you can forget about running a white LED from a 3.6V battery.
You also seem to be confusing battery capacity with current, your battery has a capacity of 600mAh, that means (when fully charged) it can supply 600mA for an hour before it's discharged. Look up battery capacity and Ah in Google.
I understand that English is not your first language, have you tried using Google translate on this page?